Upload
others
View
3
Download
0
Embed Size (px)
Citation preview
A CLIMATE CHANGE –INDUCED DROUGHT RESILIENT
FRAMEWORK DEVELOPMENT FOR RESETTLED WOMEN UNDER
FAST TRACK RESETTLEMENT PROGRAMME: A CASE OF
ZIMBABWE
Moddie Nyahwo
A thesis submitted in fulfilment of requirements for the doctoral degree
Doctor of Philosophy
In the subject of
Disaster Management
At the
Disaster Management Training and Education Centre for Africa
In the
Faculty of Natural and Agricultural Sciences
Disaster Management Training and Education Centre for Africa (DIMTEC)
At the
University of the Free State
Promoter: Dr Bernard Moeketsi Hlalele
Co- Promoter: Dr Alice Ncube
2020
ii
DECLARATION
I Moddie Nyahwo hereby declare that the work in this thesis is the original product of my own
efforts. All sources used and discussions made have been acknowledged with complete references.
This work is presented in accomplishment of a Doctorate degree in Disaster Management and I
declare that this work has never been submitted in any form or anywhere else for any degree.
I Moddie Nyahwo, student number 2010005326, hereby declare that I am aware of university
policy research ethics and I have adhered to the regulations. The University of the Free State Ethics
Committee has cleared me and my reference number is UFS-HSD2019/129.
Signature __________________________ Date __________________
iii
ACKNOWLEDGEMENTS
I would like to thank God almighty for taking me through this journey. It was not easy, but God’s
grace made it possible.
I would like to acknowledge the following people:
• My promoter, Dr Bernard Moeketsi Hlalele, for your expert assistance rendered throughout
the study.
• My co-promoter, Dr Alice Ncube, for your unwavering support and assistance regarding
all the technical aspects and feedback.
• My two-research assistants who assisted me with data collection Nashvill Kapfudza and
Anonette Ziyambe.
• My familily, Farai Zvada, Makanaka Zvada and Nokutenda Zvada, thank you for your
loving support, I could not have done this without your patience and emotional support.
Farai Zvada, thank you for your financial assistance, you have funded this project from day
1 up to the end of the project.
• My siblings, Edith Nyawo, Donovan Nyawo and Nadine Nyawo, for moral and emotional
support.
• My friend Esther Chiyaka, for your encouragement and taking care of Makanaka while I
was collecting data.
• My relatives, Chenai Kapfudza, Zachariah Kapfudza, Mr Chaiseva, Mellissa Mtandwa
Chaiseva, Simbarashe Zvada and Prynet Zvada, thank you for your support.
• All the participants, who made this study possible.
iv
ABSTRACT
Strengthening the resilience of women farmers is necessary for the development and growth in a
nation. The aim of the study was to develop a resilience framework for resettled women against
the effects of climate change induced drought risk. The Vulnerability to Resilience framework was
adopted in the study and the four dimensions (hazards and stress, future uncertainty, livelihood
and governance) assisted in acquiring techniques to strengthen the resilience of the resettled
women.
The Convergence parallel mixed method design was applied in the study; this directed the study
to make use of both quantitative and qualitative methods for data collection. A multi sampling
technique was used, for purposively selecting three out of seven districts in Mashonaland Central
province, namely Bindura, Shamva and Muzarabani. This was followed by stratified random
sampling and snowball sampling. A simple random sampling was used for the selection of
interview participants. A structured questionnaire was used to collect quantitative data and a semi-
structure interview guide was used to conduct face to face interviews. Qualitative data was
analysed by extracting themes. The quantitative data was analysed using the exploration of
demographics using PIVOT tables (MS excel), reliability test analysis (using SPSS V25 IBM), the
Cronbach’s alpha coefficient and descriptive statistics per latent variable. The researcher also used
confirmatory factor analysis and a vulnerability analysis for the resettled women was established.
The structural equation was also used to develop a framework for resilience.
The vulnerability analysis results indicated that the resettled women were vulnerable because of
limited awareness, the women were not prepared for drought and lacked a drought plan. There was
lack of coordination between the government and the community members. The government was
unable to translate drought risk policies into the local drought risk reduction practices. The women
had some form of capacities, they applied some adaptive strategies such as crop rotation and crop
diversity, had access to good markets, they also had social networks such as farmers organisations,
mikando, and church groups which were able to assist with financial and emotional support. The
study recommended that the national drought policy should set up a clear regulated principle to
v
administrate the management of drought and the associated impacts. One main recommendation
is that the government should work closely with the farmers and the local leaders to make sure that
the community abides to the laws and policies of the country.
Keywords: Resettled women farmers, climate change, drought, resilience, vulnerability, gender,
Mashonaland Central Province, Zimbabwe
vi
TABLE OF CONTENTS
DECLARATION ............................................................................................................................ ii
ACKNOWLEDGEMENTS ........................................................................................................... iii
ABSTRACT ................................................................................................................................... iv
TABLE OF CONTENTS ............................................................................................................... vi
LIST OF FIGURES ..................................................................................................................... xiii
LIST OF EQUATIONS .............................................................................................................. xvii
LIST OF ACRONYMS AND ABBREVIATIONS .................................................................. xviii
CHAPTER 1: STUDY OVERVIEW.............................................................................................. 1
1.1 INTRODUCTION ................................................................................................................. 1
1.3 PRELIMINARY LITERATURE REVIEW ......................................................................... 4
1.3.1 The resilience concept .................................................................................................... 4
1.3. 2 Climate change and drought .......................................................................................... 5
1.3.3 Land resettlement programme in Zimbabwe .................................................................. 7
1.3.4 Fast track Land Redistribution Programme .................................................................... 8
1.3.5 The role of Non-Governmental Organisations (NGOs) ................................................. 8
1.4 STATEMENT OF THE PROBLEM .................................................................................... 9
1.5 STUDY CONTRIBUTION TO BODY OF KNOWLEDGE ............................................. 10
1.6 RESEARCH QUESTIONS ................................................................................................. 10
1.7: AIM AND OBJECTIVES OF THE STUDY .................................................................... 11
1.7.1 Aim ............................................................................................................................... 11
1.7.2 Objectives ..................................................................................................................... 11
1.8 DELIMITATION AND LIMITATIONS............................................................................ 11
vii
1.8.1 Delimitations ................................................................................................................ 11
1.8.2 Limitations .................................................................................................................... 12
1.9 DESCRIPTION OF THE STUDY AREA .......................................................................... 12
1.10 CHAPTER OUTLINE ...................................................................................................... 16
CHAPTER 2: COMMON THEORATICAL AND CONCEPTUAL FRAMEWORKS USED IN
DISASTER MANAGEMENT...................................................................................................... 17
2.1 INTRODUCTION ............................................................................................................... 17
2.2 THE PEOPLES RESILIENCE FRAMEWORK ................................................................ 17
2.2.1 Seven dimensions of the framework ............................................................................ 19
2.3 DROUGHT RESILIENCE ADAPTION AND MANAGEMENT FRAMEWORK ......... 20
2.4 DFID RESILIENCE FRAMEWORK ................................................................................. 21
2.4.1 Elements of the DFID Resilience framework ............................................................... 22
2.4.1.1 Context ................................................................................................................... 23
2.4.1.2 Disturbance ............................................................................................................ 23
2.4.1.3 Capacity to deal with disturbance .......................................................................... 23
2.4.1.4 Reaction to disturbance .......................................................................................... 24
2.5 THE IPCC CLIMATE CHANGE FRAMEWORK ............................................................ 24
2.6 VULNERABILITY TO RESILIENCE FRAMEWORK ................................................... 26
2.6.1 Resilience outcomes ..................................................................................................... 28
2.6.2 The components of the framework ............................................................................... 29
2.6.2.1 Hazard and stressors .............................................................................................. 29
2.6.2.2 Livelihoods ............................................................................................................ 30
2.6.2.3 Future uncertainty .................................................................................................. 30
viii
2.6.2.4 Governance ............................................................................................................ 31
2.6.3 Critique of the VR2 framework .................................................................................... 32
2.7 SUMMARY ........................................................................................................................ 32
CHAPTER 3: CLIMATE CHANGE, DROUGHT AND RESILIENCE OF WOMEN .............. 34
3.1 INTRODUCTION ............................................................................................................... 34
3.2.1 Definitions and categories of drought .......................................................................... 35
3.2.1.1 Metrological drought ............................................................................................. 35
3.2.1.2 Agriculture drought ................................................................................................ 35
3.2.1.3 Hydrological drought ............................................................................................. 36
3.2.1.4 Socio-economic drought ........................................................................................ 36
3.2.2 Impact of drought internationally ................................................................................. 38
3.2.3 Impact of drought in Africa .......................................................................................... 42
3.3 DROUGHT AND CLIMATE CHANGE ........................................................................... 49
3.3.1 The patterns and trends of climate change ................................................................... 49
3.4 WOMEN AND CLIMATE CHANGE ............................................................................... 65
3.5 VULNERABILITY OF ZIMBABWEAN WOMEN TO CLIMATE CHANGE ............... 69
3.6 WOMEN IN AFRICAN AGRICULTURE ........................................................................ 71
3.7 WOMEN AND RESILIENCE ............................................................................................ 74
3.8 DROUGHT MANAGEMENT STRATEGIES .................................................................. 77
3.8.1 Drought forecasting and monitoring............................................................................. 79
3.8.2 Social networks............................................................................................................. 81
3.8.3 Drought knowledge management and drought awareness ........................................... 82
3.8.4 Government strategies in managing and mitigating droughts ...................................... 83
ix
3.9 DROUGHT STRATEGIES IN AFRICA ........................................................................... 85
3.10 DROUGHT MANAGEMENT STRATEGIES IN ZIMBABWE .................................... 86
3.11 POLICIES AND LEGISLATIONS ON BUILDING RESILIENCE ............................... 89
3.12 SUMMARY ...................................................................................................................... 92
CHAPTER 4: RESEARCH METHODOLOGY .......................................................................... 94
4.1 INTRODUCTION ............................................................................................................... 94
4.2 RESEARCH APPROACH .................................................................................................. 94
4.3 RESEARCH DESIGN ........................................................................................................ 94
4.4 POPULATION AND SAMPLING TECHNIQUES .......................................................... 95
4.5 DATA COLLECTION TECHNIQUES.............................................................................. 98
4.5.1 Questionnaire ................................................................................................................ 99
4.5.2 Interviews ..................................................................................................................... 99
4.5.3 Observations ............................................................................................................... 100
4.5.4 Document review ........................................................................................................ 100
4.5.5 Data collection procedure ........................................................................................... 100
4.6 DATA ANALYSIS AND PRESENTATION................................................................... 102
4.6.1 Qualitative data analysis ............................................................................................. 102
4.6.2 Quantitative data analysis ........................................................................................... 102
4.6.2.1 Vulnerability analysis .......................................................................................... 104
4.6.2.2 Structural equation modelling .............................................................................. 106
4.7 ETHICAL CONSIDERATION ........................................................................................ 106
4.8 SUMMARY ...................................................................................................................... 107
CHAPTER 5: DATA PRESEANTANTION AND ANALYSIS OF RESULTS ....................... 108
x
5.1 INTRODUCTION ............................................................................................................. 108
5.2 DEMOGRAPHICS ........................................................................................................... 108
5.3 HAZARDS AND STRESSES AFFECTING RESETTLED WOMEN ........................... 116
5.3.1 Impact of drought on water sources ........................................................................... 122
5.3.2 Losses that occurred because of drought .................................................................... 125
5.4 ADDRESSING FUTURE UNCERTANITIES OF RESETTLED FARMERS ............... 127
5.4.1 Adaptive strategies applied by women farmers .......................................................... 128
5.4.2 Adaptive measures to deal with future uncertainties .................................................. 130
5.4.3 Sector experts informing women farmers .................................................................. 134
5.5 LIVELIHOOD OF THE RESETTLED WOMEN FARMERS ........................................ 136
5.5.1 Livelihood strategies ................................................................................................... 136
5.5.2 Social networks as adaptive mechanisms ................................................................... 142
5.5.3 Making informed agriculture related decisions .......................................................... 143
5.5.4 Ability to get financial assistance from the bank ....................................................... 145
5.5.5 Financial assistance from government for women farmers ........................................ 147
5.6 GOVERNMENT INVOLVEMENT IN REDUCING DROUGHT IMPACTS FOR
RESETTLED WOMEN FARMERS ...................................................................................... 150
5.7 ASSISTANCE TO IMPROVE RESILIENCE OF WOMEN FARMERS ....................... 156
5.8 RELIABILITY OF THE RESULTS ................................................................................. 160
5.9 CONFIRMATORY FACTOR ANALYSIS (CFA) .......................................................... 160
5.10 VULNERABILITY ANALYSIS .................................................................................... 165
5.11 MODEL BUILDING FOR RESILIENCE (USING STRUCTURAL EQUATION
MODELLING ......................................................................................................................... 167
xi
5.11.1 The Chi Square test................................................................................................... 168
5.11.2 The parameter estimates ........................................................................................... 168
5.11.3 The model fit additional indices ............................................................................... 171
5.11.4 The modification of the indices ................................................................................ 172
5.12 STRUCTURAL MODEL FOR RESILIENCE FOR WOMEN IN FARMING ............. 175
5.13 SUMMARY .................................................................................................................... 178
CHAPTER 6: CONCLUSION AND RECOMMENDATIONS ................................................ 180
6.1 INTRODUCTION ............................................................................................................. 180
6.2 THEORETICAL AND CONCEPTUAL FRAMEWORK ............................................... 181
6.3 SUMMARY OF THE FINDINGS .................................................................................... 182
6.3.1 The demographics and vulnerability of the resettled women ..................................... 182
6.3.2 Hazards and stress experienced by women farmers ................................................... 184
6.3.3 Future uncertainties .................................................................................................... 188
6.3.4 Livelihood ................................................................................................................... 189
6.3.5 Governance ................................................................................................................. 191
6.4 CONCLUSION ................................................................................................................. 193
6.5 CONTRIBUTION OF THE STUDY ................................................................................ 194
6.6 RECOMMENDATIONS .................................................................................................. 195
6.7 AREAS FOR FUTURE RESEARCH .............................................................................. 197
LIST OF REFERENCES ..................................................................................................... 198
APPENDIX A: RESEARCH QUESTIONNAIRE ..................................................................... 235
APPENDIX B: INTERVIEW GUIDE ....................................................................................... 241
APPENDIX C: ETHICAL CLEARANCE LETTER ................................................................. 243
xii
APPENDIX D: PERMISSION TO CONDUCT RESEARCH .................................................. 244
APPENDIX E: CORNFIRMATION LETTER FROM THE EDITOR ..................................... 245
xiii
LIST OF FIGURES
Figure 1.1 Natural agricultural regions and province map of Zimbabwe ..................................... 13
Figure 1.2: Districts in Mashonaland Central Province ................................................................ 15
Figure 2.1: PEOPLE resilient framework ..................................................................................... 18
Figure 2.2: DFID Resilience framework ...................................................................................... 22
Figure 2.3: IPCC framework......................................................................................................... 25
Figure 2.4: Vulnerability to Resilience Framework ..................................................................... 27
Figure 3.1: Categories of drought ................................................................................................. 37
Figure 3.2: Locations prone to drought......................................................................................... 39
Figure 3.3: Map of areas at risk of water stress and drought ........................................................ 41
Figure 3.4: Map of drought affected areas in the Horn of Africa ................................................. 43
Figure 3.5: Map of areas affected by drought in Southern Africa ................................................ 45
Figure 3.6: Drought events in Arica ............................................................................................. 47
Figure 3.7: Map showing changes in climate over 50 years ......................................................... 51
Figure 3.8: Changes in temperature at continental level ............................................................... 53
Figure 3.9: changes in the average precipitation (1986- 2005 to 2081- 2100) ............................. 56
Figure 3.10: Changes in the average surface temperature (1986-2005 to 2081-2100) ................. 57
Figure 3.11: Map showing projected drought risk areas on the globe .......................................... 58
Figure 3.12: Map showing the projection of drought up to the end to century ............................ 60
Figure 3.14: Map showing soil moisture anomaly in Mashonaland Central ................................ 64
Figure 4.1: Convergence parallel design ...................................................................................... 95
Figure 5.1: Boreholes affected by drought ................................................................................. 123
Figure 5.2: Wells affected by drought ....................................................................................... 124
Figure 5.3: Losses as a result of drought .................................................................................... 126
Figure 5.4: The adaptive strategies that were applied ................................................................. 128
Figure 5.5: Sector expert informing the farmers ......................................................................... 135
Figure 5.6: Agriculture related decisions .................................................................................... 144
Figure 5.7: Getting a loan or any assistance from the bank ........................................................ 146
xiv
Figure 5.8: Ability to get financial assistance from the government .......................................... 148
Figure 5.9: (Path Diagram: Structural model for drought resilience building)........................... 176
xv
LIST OF TABLES
Table 1.1: Distribution of Mashonaland central population by districts ...................................... 14
Table 3.1: Drought at continental level from 1900 to 2011 .......................................................... 40
Table 3.2: South Africa drought outlook in the first quarter of 2019 ........................................... 46
Table 3.3: Top natural hazards in Zimbabwe ............................................................................... 48
Table 3.4: Climate change effects per region ............................................................................... 50
Table 3.5: Climate projections ...................................................................................................... 61
Table 3.6: Temperature projections for Zimbabwe ...................................................................... 62
Table 3.7: Rainfall projections for Zimbabwe .............................................................................. 65
Table: 3.8 Vulnerability of women to climate change .................................................................. 69
Table 3.9: WARM programme in Mozambique and Malawi ....................................................... 72
Table 3.10: Resilience capacities matrix ...................................................................................... 76
Table 5.1: Age group vs marital status ....................................................................................... 109
Table 5.2: Household size vs marital status ................................................................................ 110
Table 5.3: Marital status vs land ownership ............................................................................... 111
Table 5.4: Land acquisition method vs education levels ............................................................ 112
Table 5.5: Age group vs education level .................................................................................... 113
Table 5.6: Type of farming vs farming model ............................................................................ 114
Table 5.7: Household position vs land ownership ...................................................................... 115
Table 5.8: Hazards and stresses affecting resettled women ........................................................ 117
Table 5.9: Effects of drought on water sources .......................................................................... 124
Table 5.10: Future uncertainties ................................................................................................. 131
Table 5.11: Livelihood strategies statistics ................................................................................. 137
Table 5.12: Government interventions regarding drought risk reduction ................................... 151
Table 5.13: Assistance to build resilience................................................................................... 157
Table 5.14: Reliability test analysis ............................................................................................ 160
Table 5.15: Factor loadings......................................................................................................... 161
Table 5.16 Vulnerability analysis ............................................................................................... 165
xvi
Table 5.17: Fractal stage of vulnerability ................................................................................... 165
Table 5.18: Latent Variable Analysis (Lavaan) Syntax: Structural equation modelling ............ 167
Table 5.19: Chi Square test statistic ............................................................................................ 168
Table 5.20: Parameter estimates ................................................................................................. 169
Table 5.21: Model fit additional indices ..................................................................................... 171
Table 5.22: Root Mean Square Error of Approximation ............................................................ 172
Table 5.23: Other Fit indices ...................................................................................................... 172
Table 5.24: Modification indices ................................................................................................ 173
xvii
LIST OF EQUATIONS
Equation 4.1 .................................................................................................................................. 96
Equation 4.2 .................................................................................................................................. 96
Equation 4.3 ................................................................................................................................ 104
Equation 4.4 …………………………………………………… ........................................... 104
Equation 4.5……………………………………………………………… ................................ 105
Equation 4.6………………………………………………………………………… ................ 105
Equation 4.7……………………………………………………………………… .................... 105
Equation 4.8……………………………………………………………………. ....................... 105
Equation 4.9…………………………………………………………………………………….105
xviii
LIST OF ACRONYMS AND ABBREVIATIONS
ARC -Africa Risk Capacity
NNFI -Bentler-Bonett Non-normed Fit Index
CPA -Cattle Producers Association
CCAM -Conformal Cubic Atmospheric Model
CRED -Centre for Research on the Epidemiology of Disaster
DAPP -Development Aid from People to People
DFID -Department for International Development.
DRAMP -Drought Resilience Adaptation and Management Policy
EMA -Environmental Management Agency
ENSO El -Nino Southern Oscillations
EU -European Union
EWI -Early Warning Information
FANRPAN -Food Agriculture and Natural Resources Policy Analysis Network
FAO -Food and Agriculture Organisation
FEWSNET -Famine Early Warning System Network
FTLRP -Fast Track Land Redistribution Programme
GCM -Global Climate Models
GFI - Goodness of Fit Index
xix
GMB - Grain Marketing Board
IPCC -Intergovernmental Panel on Climate Change
MCEER -Multidisciplinary Centre for Extreme Event Research
NADF -National Association of Dairy Farmers
NCCRS -National Climate Change Response Strategy
NGO -Non-Governmental Organisation
PCA -Principal Component Analysis
RMSEA -Root Mean Square Error of Approximation
SAWS -Southern Africa Weather Services
SoVI -Social Vulnerability Index
TDRM -Total Disaster Risk Management Approach
TLI -Tucker-Lewis Index
TGT -Tobacco Growers Trust
UN -United Nations
UNDP -United Nations Developmental Programme
UNEP -United Nations Environment Programme
UNFCCC -United Nations Framework Convention on Climate Change
UNICEF -United Nations International Children's Emergency Fund
UNISDR -United Nations International Strategy for Disaster Reduction
xx
UNWFP -United Nations World Food Programme
USAID -United States Agency for International Development
V2R -Vulnerability to Resilience
WARM -Women Accessing Re-Aligned Markets
WISP -World Initiative on Sustainable Pastoralism
ZAIP -Zimbabwe Agriculture Investment Plan
Zim-Asset -Zimbabwe Agenda for Sustainable Social-Economic Transformation
ZNEWU -Zimbabwe’s National Early Warning Unit
ZIMSTAT - Zimbabwe National Statistics Agency
ZimVAC -Zimbabwe Vulnerability Assessment Committee
ZTA -Zimbabwe Tobacco Association
ZFU -Zimbabwe Farmers Union
ZWRCN -Zimbabwe Women's Resource Centre and Network
1
CHAPTER 1: STUDY OVERVIEW
1.1 INTRODUCTION
In general, disasters tend to affect those living in poverty more as well as disadvantaged groups in
the society like women (Victorian Council of Social Service, 2014). The resilience of women
against the consequences of climatic change is low because they lack assets and capacities. Women
living in disaster-prone areas and with ecologically insecure livelihoods have a greater chance of
being exposed in the event of a disaster (Dankelman, 2012). The ability of vulnerable communities,
particularly women to adapt to climate change must be strengthened to protect the world’s food
production and maintain developmental gains.
The vulnerability of a community to climate disasters such as drought depends on numerous
factors such as technology, population, policies, social behaviour, water use, economic
development, land use patterns and diversity of economic base and cultural composition (Wilhite
Svoboda and Hayes, 2007). Women continue to face different challenges due to lack of
government and stakeholders support. Unlike men, female farmers still face many challenges both
socially and economically (United Nations [UN], 2007). Women’s roles are generally ignored and
undervalued. According to the World Bank (2014), women farmers face numerous inequalities
and constraints that are embedded in norms, practices and laws that in turn institutionalise their
discrimination. Access to long-term affordable financing is a major obstacle for women farmers
to pursue climate-resilient agriculture. Very few women in low-income countries as compared to
men have bank accounts (Clement, 2018). Commercial banks usually work with commercial
farmers who are already well positioned in value chains.
Even when women land rights are safeguarded, their plots or farms tend to be insufficient in size
and quality to qualify as collateral for a bank loan or credit. Women’s ability to access financing
is further constrained by the lack of appropriate financial products and low financial literacy.
Despite technological advancement in farming implements, many women in Africa continue to
2
use hoes to till the land for crop farming. Funding should be available to women farmers; they
must be able to use modern tools such as tractors.
According to United Nations Women (UNW) in 2019, it has been estimated that gender-responsive
investments and interventions in agriculture removes structural barriers. This presents an
opportunity for women empowerment, economic development and societal resilience to climate
change. Agricultural outputs could increase by up to 20 percent in Africa. Failing to address the
issues that increase resilience of women farmers will lessen farming productivity Female farmers
according to Nowakowski (2014) make up 8 percent of the world’s population and women
contribute 20 percent of the agricultural labour force in Latin America and almost 50 percent East
Asia and sub-Saharan Africa. Food and Agriculture Organisation (FAO) in 2005 stated that
women’s rights to land are not always considered by the institutional arrangements designed for
land tenure in many countries. Most agricultural policies and investments fail to consider
discrimination against women in agriculture. Interventions to facilitate access to finance,
technology or markets should have the same conditions for men and women (UNW, 2019).
Countries such as Honduras, Brazil, Nicaragua, South Africa and Zimbabwe among others, have
adopted new legal regulations that recognize women as landholders and beneficiaries of land
distribution programmes (FAO, 2005). The government of Zimbabwe has taken a long time to deal
with gender disparities regarding access to resources (Zimbabwe Vulnerability Assessment
Report, 2014). Even though there are more women than men in the agricultural sector, challenges
still exist concerning issues such as access to assets and credit services. Regardless of cultural
discrimination associated with ownership of assets and land, women farmers in Zimbabwe are still
fighting to have their voices heard at policy-making level (FAO, 2005). However, the government
of Zimbabwe has managed to allocate 20 percent of the farms to women and of the 146,000 smaller
A1 Scheme farms, 18 percent were allocated to women-headed households (Zimbabwe Country
Analysis Working Document, [ZCAWD] 2014). Women in Zimbabwe were able to inherit land
3
due to campaigns that ensured that married couples had both names on the letters granting them
ownership.
1.2 BACKGROUND OF THE STUDY
In Zimbabwe, the majority of people depend on agriculture for their livelihood. Even though
women managed to acquire land through the fast track land redistribution programme, they are
faced with several challenges. One of the major challenges that women in farming are facing is
due to climate change. Brazier (2015) pointed out that climate change is projected to have a
negative effect on Zimbabwe’s water resources in relation to the quantity and quality of available
water. Disasters that result from climate change aggravate hardship and poverty among the people
of Zimbabwe. Women, especially those living in rural areas, are adversely affected. Women are
more vulnerable to the negative effects of climate change because of their lower social status in
most countries (Dattaro, 2015). Many disadvantaged women, especially those in the developing
world are farmers and they depend on the natural environment for subsistence and income. By
further restraining their already constrained access to physical, social, political and economic
resources, climate extremes often burden women more than men. (Olsson, Opondo,Tschakert,
2014). The renowned resilience of Zimbabweans has been put to the test to develop effective
coping strategies.
In 2016, Zimbabwe was affected by a drought that left over 2.4 million people in need of food aid.
The President of Zimbabwe declared a state of disaster following extensive crop failure, and death
of thousands of livestock (Action Aid, 2016). The country has a long history of droughts dating
back to the pre-colonial times, which have affected people ‘s livelihoods as well as hampering the
country ‘s economic development drive. Drought is associated with El Nino, a phenomenon that
is causing global warming (USAID, 2016). In Zimbabwe and across Southern Africa, El Nino has
wreaked havoc leading to reduced or delayed rains, leading to crop failure (Mutasa, 2010).
Berginson (2015) indicated that Zimbabwe in 2016 was expected to have a short fall of one million
4
tons of maize. The drought experienced in 2016 was compared to that experienced in 1992, when
there was a severe drought in the country.
Disasters tend to have the greatest impact on women and drought in Zimbabwe is no exception.
While drought in Zimbabwe has affected the entire country, the areas with the highest projections
of food insecurity are in the southern parts of the country (Mutasa, 2010). Drought left farmers in
serious financial trouble, as they were unable to fulfil their financial obligations (Ngoepe, 2008).
Worsening droughts and difficulties in accessing water in Zimbabwe is a challenge for many
farmers, especially women. This deprived women farmers and the country of economic growth. It
is therefore important that the vulnerability to impacts of such hazards be explored so that
appropriate coping strategies can be applied and future resilience to the hazards is enhanced.
Adaptation interventions must be pursued in tandem with development initiatives, especially for
the poorest and most vulnerable (Jerneck and Olsson, 2008; Collier, Conway and Venables, 2008).
1.3 PRELIMINARY LITERATURE REVIEW
1.3.1 The resilience concept
Pasteur (2011) defined resilience as the ability of a system, community or society to resist, absorb,
cope with, and recover from the effects of disasters, and to adapt to longer term changes in a timely
and efficient manner without undermining their wellbeing. Resilience can take on different forms.
In this study, resilient outcomes include the ability to manage risks and reduce the occurrence of
disasters associated with drought and to move out of poverty. Even when a community is affected
by several hazard events, or by long-term negative trends, they must be able to recover or adapt
their livelihoods and continue to improve their lives and move out of a threatening situation.
Increasing people’s resilience means addressing the factors that underlie their vulnerability
(Pasteur, 2011). To measure resilience, the interested party needs to know before a risk event takes
place whether they have effectively balanced the risk and opportunity in building capacity to
withstand and recover from the event (Keating, Campbell, Szoenyi, McQuistan and Burer, 2016).
5
There are civil groups, authorities and Non-Governmental Organisation (NGOs) with activities
that can be put into practice with the purpose of building resilience of a community. According to
Keating at el, 2016 making use of the 4R’s approach (robustness, redundancy, resourcefulness and
rapidly) is another way of dealing with disaster response towards resilience in a community.
According to the UN Women's experience, strengthening climate resilience calls for integrated
actions from a coalition of partners in the following four priority areas. These include intensifying
women's land tenure security by removing discriminatory legal, social and customary norms.
Secondly, to improve women's productivity by ensuring equal access to information, technologies,
inputs and decreasing their unpaid care work. The other priority area is removing financing barriers
and eliminating discriminatory lending practices of public and private financial institutions to
enable women farmers to invest in climate-resilient agriculture. The fourth priority area is
increasing the access of women farmers to higher-added value markets (Ngalame, 2015).
Concerted efforts are needed to ensure that women farmers everywhere can contribute their
expertise and knowledge to solving the challenges in agriculture of a changing climate.
1.3. 2 Climate change and drought
Many scientists have deduced that earth's temperature have increased by several degrees in the
present century because of an increase in greenhouse gas concentrations in the atmosphere (IPCC,
2004) Based on the Intergovernmental Panel on Climate Change, IPCC (2001) observations, the
rate and duration of warming during the twentieth century are unprecedented for the past thousand
years. Increases in maximum temperatures, numbers of hot days and the heat index have been
observed across the world in the course of the second half of the twentieth century (IPCC, 2001).
While some uncertainties remain, the IPCC concluded that collective evidence suggests that the
observed global warming over the past fifty years can be attributed to human activities (that is
human-induced changes in atmospheric greenhouse gas concentrations and aerosols).
6
The nature of a drought is covariate or widespread, it can overlap to national borders, making
informal risk management measures fruitless (Vicente-Serrano, Beguería, López-Moreno, 2010).
This has resulted in an escalation of the affected number of individuals, increased economic costs
and rising humanitarian support for the increasing numbers of distressed populations (Gautam,
2006). The influence of regular climatic variability and drought conditions are further emphasised
by the impending danger of climate change, which is anticipated to escalate extreme events and
the frequencies of drought in many parts of Africa. Different agricultural investment alternatives,
policy and institutional advances with variable profitability and success have been formulated to
manage climatic risks (Shiferaw and Okello, 2011).
The United Nations Developmental Programme (UNDP) in 2008 defined drought as a natural
phenomenon that occurs when precipitation is significantly lower than normal recorded levels,
triggering serious imbalances that adversely affect land resource production systems. As
temperatures rise due to global climate extremes, more moisture evaporates from land and water,
leaving less water behind. Zimbabwe has felt the effects of droughts because of climate change.
There has been some speculation among experts regarding the impacts of climate change on
agriculture in Zimbabwe (Rankomise, 2015). The poor harvests of recent years have been linked
to the rise in temperature and to aridity of the climate.
Drought impacts can be regarded as ex post and ex-ante. Ex-post impacts refer to the damages that
come after a climate shock whereas ex-ante impacts describe the opportunity costs connected with
conventional approaches that risk-averse decision makers engage in advance to defend themselves
against the likelihood of climate shocks (Hansen, Dilley, Goddard, Ebrahimian, Ericksen, 2004).
The most important conventional ex-ante responses of farmers to climate threats documented by
Hansen et al. (2004) comprise the use of profitable crops or cultivars, using advanced production
technologies and less fertiliser. The other ways include changing household labour away from
farming to non-productive but liquid assets as preventative savings. Because of high relative risk
7
aversion, poorer families are frequently affected more by ex-ante reactions to climate change as
compared to the wealthier ones even in productive years (Zimmerman and Carter, 2003).
The environmental and economic impacts of drought might be direct or indirect and can be
conveyed in various forms (Hansen et al., 2004, Hellmuth et al., 2007 and Bhavnani et al., 2008).
These may include productivity loss in crops, reduced water levels, rangelands and forests, and
damage to wildlife. These effects may initially reveal themselves in the form of reduced income
for farmers and agribusiness, increased food prices, unemployment, increased conflict, migration
and displacement, malnutrition and famine, disease epidemics and spread of plant diseases and
increased wind erosion.
1.3.3 Land resettlement programme in Zimbabwe
The colonisation of the country by the British South African Company in 1890, led to the land
issues in Zimbabwe following the Berlin Conference of 1884 that promoted further colonial
acquisitions of Southern African countries (Madhuku, 2004). At independence in 1980, Zimbabwe
had a dual agriculture sector whereby white farmers and foreign owned companies dominated
commercial agriculture and the small-scale agriculture sector was dominated by blacks (Deininger,
Hoogeveen and Kinsey, 2002). The main goal of the land reform programme was to address the
differences in land access, lessening population pressure in the communal areas, extend and
increase the base for productive agriculture in the smallholder farming sector and bring under-
utilised land into full production (Kinsey, 1999).
The land reform programme was divided into two phases. The first phase of land reform and
resettlement programme was from 1980 to 1997, the main method used to obtain the land was
through the market (willing seller-willing buyer principle) and compulsory land acquisition
(Njaya, 2013). The second phase of the land reform was from 1998 to 2002. In September 1998,
the Government organised a Land Donor Conference, however this move was not successful
(Government of Zimbabwe [GoZ], 2000). A referendum of the new constitution was held in
8
February 2000 and the voters rejected the constitution (Human Rights Watch, 2002). The dismissal
of the draft constitution turned out to be a precursor to land occupations (Marongwe, 2012) and
the subsequent launch of the fast track land reform programme.
1.3.4 Fast track Land Redistribution Programme
The fast track land redistribution programme was characterised by land invasions. Women were
also involved in land invasions and occupations (Sadomba, 2008). However, it was not everyone
who obtained land through invasion, some people applied to the government and they were
allocated land. There were two models for resettlement under the Fast Track Land Reform
Programme (FTLRP), namely A1 scheme and A2 scheme. The A1 model is the decongestion of
communal areas, it provides for farms that are comparatively small but suitable to sustain a family
and produce a surplus (UNDP, 2002). This A1 model can be either villages or self-contained plots.
The A2 model allocates small-scale to medium scale commercial farms to people with experience
in agriculture, preferably those trained to be master farmers (Chiremba and Masters, 2003).
Eighteen percent (18) of female-headed peasant farmer households and 12 percent of female-
headed commercial farmer households benefited from A1 and A2 land allocations in terms of total
household beneficiaries (Zimbabwe Women’s Resource Centre and Network [ZWRCN], 2007).
1.3.5 The role of Non-Governmental Organisations (NGOs)
Non- Governmental Organisations (NGOs) can be characterised as either selflessly devoted to the
needs of the poor or self-interested charlatans; giving support where government provision
decreases or driving force of foreign powers. The NGOs function successfully with limited
bureaucracy or amateurs that have funds, which are far beyond their managerial expertise (White,
1991). NGOs have earned a reputation for managing to promote development. Chitongo (2013)
stated that NGOs have made significant efforts in supporting underprivileged individuals to tackle
the causes and effects of food insecurity. According to FAO (2013), international organisations
are usually the key benefactors, granting funds to assist land policy-making efforts in most
9
countries as well as promoting and advocating gender equality. Many NGOs in Zimbabwe were
involved in assisting with agricultural seeds for crop production in the newly resettled areas
(Mujeyi, 2010). Thus, NGOs play a crucial role in the development of a country and transforming
lives.
1.4 STATEMENT OF THE PROBLEM
Women were among the beneficiaries of the land redistribution programme in Zimbabwe.
However, a small portion of women managed to acquire land, these women experienced several
challenges. Despite women gaining access to arable land, the country has been experiencing a
series of drought caused by climate change (Blazier, 2015). The Zimbabwe Department of
Meteorological Services (ZDMS) in 2007 points out that Zimbabwe has experienced increased
temperatures averaging two degrees Celsius in the last 30 years and precipitation patterns also
show that rainfall has reduced by 30 percent. Climate change has resulted in erratic rains, giving
rise to crop failure and perpetual food insecurity due to decreased rainfall. Drought has not only
affected farmers’ access to food, but also availability and accessibility of water. Farming seasons
are no longer predictable (Anyadike, 2016).
The economy of Zimbabwe is largely dependent on the performance of agricultural sectors among
other activities. Because of the series of droughts, the country is facing, the economy is not stable.
Most of the women do not have enough capital to finance farming operational activities. IRIN
(2014) reported that most women who were given land were coming from poor backgrounds; they
did not have enough capital to hire machinery and to hire people who can work on their farms.
Most of the resettled women farmers rely on rain-fed agriculture, because of lack of irrigation
facilities they cannot produce much as compared to their male counterparts who have irrigation
facilities (Mutingwende, 2015).
Due to the challenges faced by resettled women, women are becoming more vulnerable to climate
change-induced disasters. Women’s livelihoods are jeopardised by the effects of climate change,
10
reducing economic opportunities, especially for female-headed households (Dodman, 2010). To
deal with the problem, the research will come up with ways to increase resettled women’s’
resilience. By increasing the resilience of resettled women, food production of the country will
improve as well as the economic and social status of these women.
1.5 STUDY CONTRIBUTION TO BODY OF KNOWLEDGE
The primary aim of this study is to develop a unique framework for climate change induced
drought resilience. Various studies have been conducted on the resilience of women to disasters
globally; however, there is a gap in the existing literature regarding the strengthening of resilience
of resettled women in farming. In this study, the researcher focused on the resilience of women to
the adverse impacts of drought. The framework will be used as a tool that will serve, support and
analyse issues that are related to drought resilience of women in farming. The current study is two-
fold in terms of its contribution to science; (i) provision of useful knowledge on factors that might
have impact and contribute to the successful adoption of drought risk reduction strategy. This
accounts for the theoretical contribution of the study and (ii) a practical contribution that sets an
avenue for the understanding of local coping strategies and innovations employed by local people.
Vulnerability and impact assessment for the study might assist the government with mobilisation
of resources. Furthermore, findings of this study will assist disaster management systems in the
country to strengthen disaster management interventions and development of appropriate policies
for climate change- induced drought risk reduction.
1.6 RESEARCH QUESTIONS
This research study asked the question; how can resilience of resettled women be strengthened?
To narrow down the scope of the research to researchable magnitude, the question was rephrased
in the following manner: does strengthening resilience help resettled women to alleviate the
impacts of drought?
To answer the research question, the following secondary questions were asked:
11
i. What are the current and potential problems resettled women are facing because of
drought?
ii. How vulnerable are resettled women to drought disasters that continue to occur in the
country?
iii. How has the government or and other organisations responded to the impacts of drought?
iv. What are the existing alleviation strategies and measures that were put in place to increase
resilience?
1.7: AIM AND OBJECTIVES OF THE STUDY
1.7.1 Aim
The aim of this study is to uncover the underlying variables responsible for climate change induced
drought and to develop a resilience framework for resettled women against drought risk in the
study area.
1.7.2 Objectives
• To assess vulnerability and impacts of climate change induced drought on resettled women.
• To determine strategies applied by the government and different organisations to minimise
the level of impacts
• To make recommendations on different ways that can be employed to increase resilience
of resettled women, to the government authorities, private sector and all relevant
stakeholders.
1.8 DELIMITATION AND LIMITATIONS
1.8.1 Delimitations
12
This study focused on resilience of women who obtained land through the fast track land
resettlement programme. For the purpose of this study, only the impacts of droughts were
addressed instead of all the impacts of climate change related disasters.
1.8.2 Limitations
The issue about the resettlement of farmers is very sensitive due to the way the programme was
initiated. Participants were reluctant to take part in the study and express their views; they only
agreed to participate after they were convinced that the study was for academic purposes. It was
difficult to locate the resettled farmers especially the A2 farmers because the farmers live far from
each other. Therefore, the views reported in this study are mainly from A1 farmers because it was
much easier to locate them. The researcher selected three districts out of the seven districts of
Mashonaland Central province. The study was limited to the three districts, hence the opinions of
women resettled in other districts are not known.
1.9 DESCRIPTION OF THE STUDY AREA
The study was conducted in Mashonaland Central province. The province was selected because it
has many women farmers who were beneficiaries of the land reform programme and it experienced
a series of droughts. Mashonaland Central province is a highly productive farming province.
Mashonaland Central province is one of the ten provinces in Zimbabwe. The province covers the
northern part of Zimbabwe and goes as far as the Zambezi valley and to the border of Mozambique
in the north-east (Environmental Management Agency [EMA], 2014). Figure 1.1 below shows the
natural agricultural regions and provinces in Zimbabwe.
13
Figure 1.1 Natural agricultural regions and province map of Zimbabwe Source: (Chivasa, Mutanga and Biradar, 2019)
Mashonaland Central province has an area of 28.347 km² and a population of 1.152 520, this
represents about 8.5% of the total population in Zimbabwe (Zimbabwe National Statistics Agency
[ZIMSTAT], 2012). ZIMSTAT (2012) also indicated that the male population of Mashonaland
Central is 567 140 and the female population is 585 380.
14
Table 1.1: Distribution of Mashonaland central population by districts
Source: (ZIMSTAT, 2012)
Table 1.1 above shows the population distribution by district. According to Table 1.1, the most
populated district is Mazowe and the district with the least population is Mvurwi. The province
lies in the agro-ecological region II, this region is known for intensive livestock and crop
production (Musemwa, 2011). Rainfall in this region is moderately high (750 to 1000 mm) and is
more confined to summer (Campbell, 2003). There are other small sections of the province that
come under regions III and IV which are suitable for semi-intensive farming and semi-extensive
farming respectively (Utete, 2003).
District Total population Percentage
Bindura urban 43 675 3.8
Bindura rural 125 219 10.9
Guruve 124 041 10.8
Mazowe 233 450 20.3
Mbire 82 380 7.1
Mount Darwin 212 725 18.5
Muzarabani 122 791 10.7
Mvurwi 10 549 0.9
Rushinga 74 040 6.4
Shamwa 123 650 10.7
Total 1 152 520 100
15
Figure 1.2: Districts in Mashonaland Central Province
Source: (Samwise, 2008)
Agriculture is crucial for the social and economic development of Mashonaland Central province.
It contributes to poverty reduction by providing employment and affordable food for most of the
population in the province (Moyo, 2004). Figure 1.2 above shows the seven districts in
Mashonaland Central province. Bindura is the provincial capital of the province and most of the
economic activities take place there (Samwise, 2008). According to Zimbabwe Vulnerability
Assessment Committee (ZIMVAC) in 2013, Mashonaland Central was the province with the
highest improved source of drinking water for rural households. People from Mashonaland Central
have different types of livelihood coping strategies, these include selling their livestock, borrowing
money and using money from their savings. ZIMVAC (2019) pointed out that Mashonaland
Central is one the top four provinces with half of its households that are involved in at least one
livelihood-based coping strategy.
16
1.10 CHAPTER OUTLINE
The chapters of the research were organised as follows: Chapter 1 covers the introduction and the
background of the study. The chapter also addresses among others, the research objectives, the
research problem, research question, significance of the study and description of the study area.
Chapter 2 reviewed the theoretical and conceptual frameworks used in the study. Chapter 3 focused
on climate change, drought, resilience and different issues faced by women in farming. Chapter 4
reviewed the data collection methods, research design and methodology applied, and the ethical
considerations applied in the study. Chapter 5 discussed the findings of the empirical study and
the analysis of the data from the questionnaires, interviews and observations. Conclusions and
recommendations were presented in chapter 6.
17
CHAPTER 2: COMMON THEORATICAL AND
CONCEPTUAL FRAMEWORKS USED IN DISASTER
MANAGEMENT
2.1 INTRODUCTION
There are several frameworks and theories that can be applied to determine the resilience of women
to climate change induced drought disasters. The frameworks that were used include the PEOPLES
resilience framework (Renschler, Reinhorn, Arendt, and Cimellaro, 2011), Drought Resilience
Adaptation and Management framework (Crossman, 2018), the DFID resilience framework
(DFID, 2011), The IPCC Climate Change framework (IPCC, 2007) and the Vulnerability to
Resilience framework (Upton and Ibrahim, 2012). All the frameworks were discussed and
analysed, however more emphasis was put on the Vulnerability to Resilience framework. For the
purpose of the study, the Vulnerability to Resilience framework was adopted. The V2R framework
was adopted because the framework clearly shows how a community can become resilient. The
framework was established to assist policy makers and practitioners to identify, analyse and attend
to several issues that communities require to build resilience (Pasteur, 2011). The other
frameworks discussed were used to support the V2R framework. The frameworks discussed have
the resilience concept, and other concepts in the frameworks will assist in developing a resilience
framework for women in farming, which is the main objective of the study.
2.2 THE PEOPLES RESILIENCE FRAMEWORK
The PEOPLES resilience framework is a framework that defines and measures disaster resilience
for a community at a scale that ranges from individual structures, smaller communities to entire
regions (Renschler et al, 2011). The framework is an expansion of the research done by the
Multidisciplinary Centre for Extreme Events Research (MCEER), connecting the dimensions of
resilience (technical, organisational, economic and societal) (Bruneau, Chang, Eguchi, Lee,
18
O’Rourke, Reinhorn, Shinozuka, Tierney, Wallace and Winterfelt, 2003). The seven dimensions
of community resilience were identified and denoted by the acronym PEOPLES: Population and
Demographics, Environmental/Ecosystem, Organised Governmental Services, Physical
Infrastructure, Lifestyle and Community Competence, Economic Development, and Social-
Cultural Capital (EPICURO, 2018). Figure 2.1 below shows the seven dimensions of the
PEOPLES Resilience Framework. The framework offers the basis to incorporate any qualitative
and quantitative models, which measures the resilience of a system against any extreme event in
one or a combination of the seven dimensions (Renschler, Frazier, Arendt, Cimellaro, Reinhorn,
and Bruneau, 2010).
Figure 2.1: PEOPLE resilient framework
Source: (Renschler et al., 2010).
POPULATION AND DEMOGRAPHICS
Composition, socio-economic status, distribution, etc.
ENVIRONMENTAL/ECOSYSTEM
Air quality, biomass, air, biodiversity, etc.
ORGANISED GOVERNMENTAL SERVICES
Health services, legal and security services, etc.
PHYSICAL INFRASTURE
Lifeline, facilities, etc.
LIFESTYLE AND COMMUNITY COMPETENCE
Quality of life, etc.
ECONOMIC DEVELOPMENT
Production, financial, employment distribution, etc.
SOCIAL-CULTURAL CAPITAL
Child services, education services, elderly care services, etc.
19
2.2.1 Seven dimensions of the framework
The first dimension of the PEOPLES resilience framework is population and demographics, this
dimension measures the social vulnerability of the community (Renschler et al., 2010). It also
measures the extent of functionality of a given population and demographics of a community and
is quantified by making use of the social vulnerability index (SoVI) (Cutter, Barnes, Berry, Burton,
Evans, Tate and Webb, 2008).
The first dimension focuses on issues such as the socio-economic status of the community. The
second dimension of the framework is environmental/ecosystem. Ecosystem or ecological
resilience is normally measured by the level of disturbance an ecosystem will absorb without
considerably modifying its processes, functions and structures, or by the capability of the
ecosystem to cope with disturbance (Renschler et al., 2011). In the framework, the environmental
and ecosystem resources functions as an indicator for determining the capacity of the ecological
system to return to or close the state it was before the event or a position that is defined by the
community (Renschler, 2013). The third dimension in the PEOPLE resilient framework is
organised governmental services. In this section, the levels of functionalities of governmental
services are measured. Organised governmental services are designed to permit an orderly
outcome (Renschler et al., 2010). The fourth dimension, physical infrastructure caters for lifelines
and facilities. The fifth dimension is lifestyle and community competence, this dimension focuses
on measuring the impact and recovery advancement of a community. In this dimension, the reality
of community resilience is not being a simple bouncing back to conditions before disasters, rather
it is a concerted and active effort, which depends on the ability to create and take steps to achieve
a new future (Renschler et al., 2011). Economic development is the sixth dimension, this measures
different services and products that are available in the community. The last dimension of the
PEOPLES resilient framework is social-cultural capital. Communities that have a higher degree
of social-cultural capital encourage the members to return and reinvest after an extreme event such
as drought (Renschler, 2013). The drawback of the PEOPLES framework in this study is the
20
framework does not clearly state how the dimensions are related, so it will be challenging to apply
this framework to achieve the goals of this research.
2.3 DROUGHT RESILIENCE ADAPTION AND MANAGEMENT FRAMEWORK
The Drought Resilience, Adaptation and Management Policy (DRAMP) Framework is an
integrated method used for planning, to reduce the risk and impacts of drought. Practical actions
that countries can implement to prepare and respond to drought are identified in this framework.
The framework will assist countries to implement drought policies. The framework consists of six
cross-cutting goals that outlines practical and pragmatic actions that nations and communities can
adapt to increase resilience to drought (Crossman, 2018). There are actions a country should take
to strengthen its resilience to drought disasters. The goals of the framework are mapped in the
three key pillars of drought risk reduction to establish the connections between the pillars and the
framework (IPCC, 2012). The first key pillar of the DRAMP framework includes the
implementation of drought monitoring and early warning systems, assessing vulnerability and risk
of drought. The second key pillar is the implementation of measures that limit the impacts of
drought and the action that can be taken to for effective response to drought (Crossman, 2018).
The third key pillar in the framework is more aligned to resilience strengthening and the measures
that are applied will assist the nation in dealing with drought risk.
The goals in the framework are not equally exclusive, there are various actions that can be
employed to adapt and manage drought and actions can be applied for more than one goal.
• The first goal of the DRAMP framework involves reducing the exposure to drought, this
entails that the government should come up with ways to minimise the risk of loss of lives,
livelihood and other aspects that could be affected by a drought disaster (Crossman, 2018).
• The second goal is reducing the vulnerability to drought by lessening the tendencies that
lead the community to be affected by drought.
21
• Goal number three of the framework is increasing the resilience to drought hazard through
strengthening the capability of the community, economic and ecosystem to look forward
to accommodating, absorbing or recovering from drought effects. This can be achieved
quickly and efficiently when the relevant authorities ensure that there are preservations,
and enhancements of the natural capital (UN, 2017).
• The fourth goal of the framework is transformation, this can be achieved by modifying the
essential elements of economic, ecology and ecological systems. To manage drought
resilience in a community, the community should prepare for drought, respond and recover
from the effects of drought. These can be achieved by planning and developing drought
monitoring and early warning systems (Sivakumar and Wilhite, 2014).
• The fifth and last goal of the framework is transferring and sharing drought risk, this goal
involves distributing risk between wider segments of the community and involves those
who indirectly and directly benefit from robust drought management (Crossman, 2018).
The most important aspect of the DRAMP framework for this study is the goal that focuses on
increasing resilience to drought. The framework is meant to address drought disasters and it gives
guidelines that assist in a drought situation but the drawback of the framework to this study is that
it does not clearly link the goals.
2.4 DFID RESILIENCE FRAMEWORK
The DFID resilience framework was developed by DFID, this framework sets out three distinctive
components of resilience which are sensitivity, exposure and adaptive capacity (Brooks, Aure and
Whiteside, 2014). The DFID framework consists of four elements (context, disturbance, capacity
and reaction) to deal with disturbances (Twig, 2017). These elements ought to be taken into
consideration in encouraging resilience building (DFID, 2011). The elements of the framework
22
can be used to explore various types of resilience such as the resilience of women in farming.
Figure 2.2 below clearly shows the major elements of disaster resilience.
Figure 2.2: DFID Resilience framework
Source: (DFID, 2011)
2.4.1 Elements of the DFID Resilience framework
The four elements of the DFID resilience framework will be addressed in this section. These are
context, disturbance, the capacity to deal with disturbance and the last element is the reaction to
disturbance.
23
2.4.1.1 Context
There is need to contextualise resilience through permitting a comprehensible answer to the
question ‘resilience of what?’ (DFID, 2011). It is possible to strengthen and identify resilience in
a social group, political or socio-economic system, environmental context or institution (Combaz,
2014). The systems are likely to display lesser or greater resilience to man-made or natural
disasters.
2.4.1.2 Disturbance
After establishing a system or a process, the next step is to become familiar with the disturbances
encountered, concentrating on the question ‘resilience to what?’ (Sanderson, 2012). These
disturbances generally exist in two forms:
• Shocks are regarded as sudden outcomes that can affect the vulnerability of a system along
with its components (DFID, 2011). There are numerous forms of disaster-related shocks,
which can affect people.
• Stresses can be described as long-term trends which demoralise the capability of a system
or process (DFID, 2011). This will in turn intensify the vulnerability of the actors that are
within it (Combaz, 2014). Many countries frequently encounter multiple interrelated
shocks and stresses.
2.4.1.3 Capacity to deal with disturbance
The capability of a system or process to deal with stress or shocks depends on the level of exposure,
level of sensitivity and its adaptive capacities (DFID, 2011).
• Exposure is defined by UNISDR (2017) as the condition of individuals, infrastructure,
production capacities and human assets that are tangible and are positioned in hazard-prone
24
areas. Women farmers in Mashonaland Central are exposed to climate change induced
hazards such as drought.
• Sensitivity is defined as the extent a system is going to be affected by, or responds to, a
shock or stress (DFID, 2011).
• The adaptive capacities refer to how the people become accustomed to a situation if they
are faced with any disturbance (Sanderson, 2012). Actors such as government, institutions
or organisation adapt to a disturbance depending on their capability, relative possible
damage, taking advantage of the opportunity and dealing with the outcomes of a
transformation (DFID, 2011). Adaptive capacities permit the actors to anticipate, come up
with strategies, respond to and learn from the shocks or stresses.
2.4.1.4 Reaction to disturbance
The capacities that individuals and communities have will affect how they react to disturbances.
In some instances, the reaction to shock and stresses leads to positive results and better future
resilience (Twig, 2015). In such cases, capacities are improved and leads to a reduction of
sensitivities and exposures. Sometimes the individual or community manage to revert to their
previous condition, recover or worst-case scenario collapse (Sanderson, 2012). The worst-case
scenario leads to a devastating reduction in capability to cope in the future (DFID, 2011). This is
not a desirable condition for an individual or community to be exposed to. The DFID framework
is capable of harmonising conceptualisation across different programmes and disciplines;
however, it is not clear if the framework describes how resilience can change over a period.
2.5 THE IPCC CLIMATE CHANGE FRAMEWORK
The Intergovernmental Panel on Climate Change (IPCC) has various scientists across the world,
and contributes to climate change research (Klein, Nicholls, Mimura, 1999). The IPCC
Organisation came up with a framework that was developed in the course of their third assessment
report in the year 2001 and the framework was refined later in 2007 in their fourth assessment
25
report (Giorgi, Jones, Asrar, 2009). The framework shows the linkage that exists among climate
process drivers (gases, greenhouse and aerosols) and climate change; it also shows the linkage to
and from the socio-economic development (Figure 2.1). The framework goes on to illustrate the
linkage between socio-economic development, vulnerability and climate change (IPCC, 2007).
The framework is useful in identifying factors that contribute to climate change and identifying
the climate impacts, which affects drought intensity and frequency. The IPCC framework explains
the ways to reduce risk (mitigation and adaptation) such as markets, technology, governance and
socio-economic development (IPCC, 2007).
Figure 2.3: IPCC framework
Source: (IPCC, 2007)
26
The IPCC climate change framework provides some practical situations of how climate change
can affect the world and the framework outlines the mitigation and adaptation measure that can be
employed. However, the framework does not focus on the resilient part, which is the core of this
study.
2.6 VULNERABILITY TO RESILIENCE FRAMEWORK
For a community or a nation to withstand the impact of a hazard, there should be some form of
resilience. To identify ways to strengthen the resilience of women in farming a resilience
framework must be applied. The Vulnerability to Resilience framework (V2R) was developed by
practical action, the framework was established using some existing approaches such as the:
sustainable livelihoods, climate change adaptation and disaster risk reduction (DRR) (Upton and
Ibrahim, 2010). The framework was established to assist policy makers and practitioners to
identify, analyse and attend to several issues that communities require to build resilience (Pasteur,
2011). The V2R framework incorporated four key components these are livelihoods diversity and
security, hazards and stresses, future uncertainty: and governance (EPICURO, 2018). The key
components of the framework will assist in initiating development programmes that will take the
community out of poverty by strengthening livelihoods, adaptive capacity, disaster preparedness
and by addressing governance issues (Ibrahim and Ward, 2012). The V2R framework explains the
relationships relating to the key elements, in addition to ideas for actions to strengthen resilience.
The (V2R) framework below enables government officials, community members, and NGOs to
distinguish pathways and employ actions to promote resilience (Ibrahim and Ward, 2012). The
V2R framework objective is to address the multidimensional nature of poverty through an
integrated approach that considers all underlying core issues. It pays special attention to integrating
data about climate change and other long-term trends (economic, socio-political or environmental
for example), impact on poor people’s vulnerability over time by undermining their livelihoods
and increasing their exposure to hazards or stresses.
27
Figure 2.4: Vulnerability to Resilience Framework
Source: (Upton and Ibrahim, 2010)
Future Uncertainty
Long term trends including climate change
Adaptive Capacity
• Improving and understanding trends and their
impacts
• Ensuring access to relevant and timely information
• Building confidence & flexibility to learn &
experiment to learn in order to adapt to
uncertainty.
Governance Enabling environment
• Decentralise and participatory decision making
• Strengthening links between local district and
national levels
• Promoting integratory approach to livelihood
disasters and climate change
Hazard and stresses
Disaster Preparedness
• Building capacity to
analyse hazards and stressors (including
climate change
impacts)
• Improving hazard
prevention and protection
• Increasing early
warning and
awareness
• Enabling
contingency and
emergency planning
• Building back better
Livelihood diversity and
security
• Strengthening
community organization and
voice
• Supporting access
to and sustainable
management of productive assets
• Promoting access
to skills and
technologies
• Improving access
to markets and
employment
• Ensuring secure
living conditions
Resilience
Ability to adapt to
change Ability to cope and
recover from
shocks Ability to secure
sufficient food
Ability to move out of poverty
28
The V2R framework approach highlights the importance of understanding and addressing the ways
in which climate change should be addressed. The framework prioritises constructing the adaptive
capacity of vulnerable people to acquire assets, resources and capacities to counter existing threats
and unknown future challenges (Pasteur 2011). Communities are becoming vulnerable to many
hazards and stressors due to climate change. The unpredictability of future climate and economic
patterns indicates that potential pathways out of poverty are less obvious (Ibrahim and Ward,
2012). Disasters that include the effects of climate change are more likely to compromise
development progress and reduce the effectiveness of aid investments. Moreover, diverting aid
resources to emergency response lessens the resources available for long-term development
programmes (Pasteur, 2011). The Vulnerability to Resilience Framework (Figure 2.4) above is a
practical tool that utilises existing approaches to help farmers and policy makers to understand,
analyse and address the multiple factors contributing to vulnerability in order to build a nations’
resilience. What is innovative about this framework is its dynamic element of looking at long-term
trends and their effect on future community resilience (Upton and Ibrahim, 2010).
2.6.1 Resilience outcomes
The V2R framework strives to move people from vulnerability to resilience. According to Figure
2.4, resilience is the outcome of succeeding in an integrated and holistic way. Resilience outcome
in the V2R framework focusses on a dynamic approach and promotes holistic thinking (Bahadur,
Ibrahim and Tanner, 2010). Positive coping strategies are considered as an essential aspect of
resilience. Working through the four elements of the V2R framework (hazards, livelihoods
governance and future uncertainty) leads to increased resilience (Ibrahim and Ward, 2012).
Resilience is the core of this study; therefore, all the outcomes that assist in strengthening the
resilience of women will be discussed.
29
2.6.2 The components of the framework
The V2R framework consists of four components; these are future uncertainty, hazards and
stressors, livelihood diversity and security, governance. They all lead to resilience. These four
components are interrelated, the relationship between the components and how these elements
promote resilience will be discussed next.
2.6.2.1 Hazard and stressors
In most cases, people that have a few resources are the ones that are affected the most during
disasters. The resilience of an individual or community needs to be built to withstand the impacts
of a hazard or stressors. Building resilience of a community to hazards and stresses requires
building capacity. Capacity is built by analysing hazards and stresses, enhancing hazard prevention
and protection, setting up contingency and emergency planning and intensifying early warning and
awareness (Upton and Ibrahim, 2010). A significant element of strengthening resilience is the
building of community capacity for analysing and identify with the hazards and stresses that
influence their lives. This is the first stage towards taking action to tackle the hazard (Pasteur
2011). There is need to work hand in hand with the communities by providing training to the
leaders so that they can assist in facilitating community analysis. The community needs to
understand the nature of the hazard and its impact on the community. Hazard prevention and
protection may be achieved by enhancing the management of resource (Saygin, 2017). The
livelihoods of people can be protected through various structural or other regulatory measures from
the impact of drought. The community can access monitoring and warning information by
developing a hazard monitoring system within their community or coordinating with other
monitoring and early warning services that are outside the community (Buurman, Dahm and
Goedbloed, 2014).
30
2.6.2.2 Livelihoods
A livelihood encompasses the resources (including skills, technologies and social networks) and
activities required to make a living and have a good quality of life. A livelihood also consists of
assets, capabilities (to include both social resources and material) as well as actions that are needed
to sustain life (Chambers and Conway, 1991). The skills, resources and technologies that are
accessible to a person and household determine the livelihood options available to them.
Individuals that have poor livelihoods are forced by circumstances to live or work in places were
there become more exposed to hazards and stressors (EPICURO, 2018). Developing livelihood
resilience requires improving the security and diversity of the livelihoods of people so that they
have other options. These options include enhancing the community organisation and initiating
some connections with service providers so that they can build capacities (Upton and Ibrahim,
2010). This can be achieved by building confidence, understanding, motivation and skills.
Communities should be encouraged to work together to prepare for potential threats (Pasteur and
McQuistan, 2011). The poor must be included in community organisation and their needs must be
represented. Livelihoods can be developed by improving technologies, develop markets for
improved production, security and income (Ensor, 2011). It is essential to support access to and
the management of natural resources as well as making sure the living conditions are secure
(Pasteur 2011). The community can prepare for the future and make use of their resources
efficiently and sustainably if they have secure access to productive resources.
2.6.2.3 Future uncertainty
Long-term trends are more likely to cause unpredictable impacts on the physical, natural,
economic, social, technological environment. This stimulates uncertainty about the imminent
viability of livelihoods under new circumstances, and around the likelihood of changing risks
(Upton and Ibrahim, 2010). The most recent trend to effect people is climate change; it has many
negative effects on the poor. The V2R framework prioritises adaptive capacity. Adaptive capacity
31
is a combination of assets, skills, networks and institutions and the policies that facilitate
communities’ continuous evaluation of conditions against current and developing situations. This
allows for the implementation of suitable changes to their lives and livelihoods (Levine, Ludi, and
Jones, 2011). Building capacity to tackle future uncertainty includes advancing local
understanding of trends and their impacts (Pasteur 2011). There is a need to help communities to
understand trends such as how climate change influences weather patterns. There is need for
communities to enhance their knowledge and access information so that they deal with the
uncertain future and develop responses to the developing impacts of climate change (Ensor, 2011).
Building capacity to deal with future uncertainty also includes ensuring that they have access to
relevant and well-timed information as well as flexibility to experiment and learn (Upton and
Ibrahim, 2010).
2.6.2.4 Governance
Governance comprises of private and public, formal and informal organisations, processes and
policies that are functioning at local, district, national and at international levels (Ibrahim and
Ward, 2012). An enabling environment must be created where individuals can access and have an
input on the decision-making process, resources and services (Upton and Ibrahim, 2010).
Governance is important in strengthening resilience of people because it regulates how people
access resources, technologies, skills. Individual and communities are taught how to protect
themselves from hazards, how they can broaden their livelihoods and where they are able to find
support to assist them to recover when affected (Pasteur 2011). The policy and institutional context
can operate as an enabling environment. This will make it easy for the people to upgrade their
livelihoods, minimising their chances of being subjected to hazards and adapting to climate change
(Connolly, De Coning, De Carvalho, 2014). To successfully deal with the governance context and
the receptiveness of the institutions and policy the following must be included: encouraging
decentralised and participatory approaches in decision making and intensifying the links amongst
the local, district and the national levels (Upton and Ibrahim, 2010). Governance also encourages
32
integrated livelihood approaches and addresses the fundamental systemic matters that trigger
vulnerability (Pasteur, 2011).
2.6.3 Critique of the VR2 framework
The VR2 framework is relevant to the study because it clearly states how a community can move
out from a vulnerability situation and progress to resilience. The framework can assist the
community to develop a drought plan for the community and thus improving the resilience of the
community. The framework acknowledges that there are future uncertainties such as climate
change that need to be addressed to strengthen the resilience of the community. The emphasis of
climate change makes this framework more applicable to the study, the study is focusing on climate
change induced disasters, specifically drought. One of the strengths of the framework is it can be
applied to a small community or to a nation. However, the shortcomings of the framework are that
it is generic, it is not hazard specific and the framework is designed for everyone including men.
One of the criticisms of the V2R framework is that the framework is too general, and it requires
many components to be addressed at once, making it difficult to concentrate on matters in detail.
The study focuses on women in farming; however, the framework does not specifically address
the issues of women vulnerability.
2.7 SUMMARY
Frameworks that are linked to resilience, drought and climate change were discussed in this
chapter. The V2R framework was adopted in the study. The framework will assist policy makers
and practitioners in Zimbabwe to identify, analyse and attend to several issues that communities
in Mashonaland Central require to build resilience. The key components of the framework will
assist in initiating development programmes that focus on poverty reduction by strengthening
livelihoods, adaptive capacity, and disaster preparedness and by addressing governance issues.
The framework provides justification of the relationships between the key elements, in addition to
ideas for procedures that can be taken in the study area to strengthen resilience. Another advantage
33
of using the V2R is that the framework pays special attention to issues relating to climate change
and other long-term trends (economic, socio-political or environmental for example). The
following chapter will address issues that are related to drought and climate change and how
women are affected by these effects. The strategies that can be employed will also be discussed.
34
CHAPTER 3: CLIMATE CHANGE, DROUGHT AND
RESILIENCE OF WOMEN
3.1 INTRODUCTION
There are various definitions of drought. Several standards and classifications for example,
hydrological, metrological, agriculture and socio-economic are used to define drought (Chae, Lee
and Um, 2012). Different parts of the world have experienced drought. African countries have
been affected by severe droughts, especially countries that are at the horn of Africa and countries
in the Southern Africa. Zimbabwe has also experienced droughts that are attributed to climate
change. Women as one of the vulnerable groups, they have been affected heavily by the impacts
of climate change induced droughts (Neumayer and Plümper, 2007). Various organisations and
governments have been working together to find mechanisms to the impacts of drought and to
create resilient communities. Organisations have come up with strategies to strengthen the
resilience of women to drought (FAO, 2014). Different policies, laws and legislations have been
established globally and at national level. All these measures are initiatives to assist women in
farming to become more resilient. The first part of the chapter focuses on the definition of drought
and the different categories of drought. The impacts of drought on an international scale, in African
countries and in Zimbabwe are discussed. The chapter discusses issues on drought and climate
change, focusing mainly on the patterns and trends of climate change. Issues on women and
climate change, specifically the vulnerability of Zimbabwean and African women to climate
change and issues on women and resilience. Drought management strategies that were applied in
other countries and in Zimbabwe are also addressed. The chapter concludes with a discussion on
the policies and legislations that promotes resilience building.
35
3.2.1 Definitions and categories of drought
Droughts are defined according to the specific region; this reflects the variances in climate
characteristics with different physical variables and socio-economic variables. Palmer (1968)
defines a drought as an “interval of time” which usually takes months and years, during which the
supply of moisture in an area diminishes to an extent that the moisture is not climatically expected.
UNDP (2008) went on to define drought as a phenomenon that occurs naturally, it occurs when
precipitation is recoded below the standard levels, resulting in severe hydrological inequalities that
negatively influence the land resources valuable systems. Drought is believed to be a severe
diminution in availability of water, this is below the rate of what is being expected (Development
Co-operation Report, 2016). Drought has a gradual onset, it does not have a clear start or end,
drought can take place over one season or it can take up to several years, as compared to a storm
that is more likely to occur over a couple of days (Clark, Mullan and Porteous, 2011).
Drought is defined according to different standards and it is classified into hydrological drought,
metrological drought, agriculture drought and socio-ecological drought (Chae at el, 2012). The
different categories of drought are related is highlighted in Figure 3.1 below.
3.2.1.1 Metrological drought
It is calculated by using precipitation or the consecutive days without precipitation for a specified
period. Metrological drought is defined as a condition, which results when there is less water than
what is required (OECD, 2016).
3.2.1.2 Agriculture drought
It is the insufficiency of soil moisture (generally in the root zone), emphasising the accessibility
of soil moisture to maintain growth of vegetation. Agriculture because of its dependence on water
reservoirs is affected by drought (Castilo, 2009). Agriculture drought is associated with the
imbalances that exist in the in-water content of the soil during the growing season. It is influenced
36
by some variables like the water holding capacity, crop water requirement and the degree of
evaporation, which depend mainly on rainfall distribution and amount.
3.2.1.3 Hydrological drought
Hydrological drought is determined by assessing the quantity of water resources that are usable
such as reservoir, river and underground water by using standard values. The depth and frequency
of hydrological drought is defined in the drainage basin unit scale because of the effects extended
through the hydrological system (Lee, 2012).
3.2.1.4 Socio-economic drought
This results from an extreme incident that gives rise to a water deficit that affects the economy,
the people and environment (OECD, 2016). Socio-economic drought relates to the relationship
that exist between supply and demand for some economic goods or commodity that relays on
precipitation.
37
Figure 3.1: Categories of drought
Source: (Wilhite, 2000)
Due to climate change, drought may progress from one type of drought to another, agriculture
drought can become hydrological drought, then it can proceed to socio-economic drought that has
a negative impact on economy and the society. Metrological drought takes place when
precipitation decrease, this reduces the soil water content and affects the growth of plant and
animals such as low production in crops, in this manner triggering agriculture drought (Lee, 2012).
This will lead to hydrological drought, which results in the reduction of outflow a river or the
reduction in reservoirs. However, the relationship between hydrological drought and metrological
drought is not linear (Zammit, 2018). There are factors like land cover, geology and soil that have
38
an influence (Van Loon, Gleeson, Clark, Van Dijk, Stahl, Hannaford and Uijlenhoet, 2016).
Finally, it causes socio-economic drought and it ends up disturbing the local economy and the
environment.
3.2.2 Impact of drought internationally
Drought has destructive consequences and affects peoples’ livelihoods. Drought has negatively
affected livestock production and agriculture in Brazil. According to Cunningham, Cunha, Brito,
Marengo and Coutinho (2017), the 2013 to 2014 drought in Brazil led to economic losses that
added up to US$1.6 billion worth of crops. In Brazil, the drought period from 2012 to 2016 was
regarded as the worst period of drought in decades (Bretan and Engel, 2017). According to
Marengo, Alves, Alvala, Cunha, Brito and Moraes (2017) from the mid-1990s to 2016, north-
eastern parts of Brazil experienced rainfall that was below normal, the water levels in the reservoirs
depleted and this led to a water crisis.
Other parts of the world that have been affected by drought is Australia and Asia. There are three
common periods of drought experienced in Australia and these were the Federation drought (1895
to 1903), World War II drought (1939 to 45), and the Millennium drought (1997 to 2009) (Freund,
Henley, Allen and Baker, 2018). These droughts resulted in a negative impact on the agriculture
sector and the economy of the country. The millennium drought badly affected the south-eastern
and south-western Australia and it is said to be the worst drought that was recorded ever since the
European settlement (Rural News, 2003). According to Mosley, Zammit, Leyden, Heneker,
Hipsey, Skinner and Aldridge (2012), there was a very low flow in the lower River Murray in the
south of Australia, this lead to the lowest water level in more than 90 years of records.
39
Figure 3.2: Locations prone to drought
Source: (Karim and Rahman, 2015)
Globally, some areas are more likely to be affected by drought and this is attributed to different
factors. According to Karim and Rahman (2015) nearly half (47%) of terrestrial surface on earth,
equivalent to 6.45 billion hectares consists of dry land and are distributed amongst different
sections of the earth. According to Figure 3.2 above, nearly one sixth hectares of the earth land is
hyper arid. Almost 70% (5.2 billion hectares) of land that is dry around the world is being utilised
for agriculture and there is limited production in areas where crop yield is determined by the type
of drought (UNEP, 1997).
40
Table 3.1: Drought at continental level from 1900 to 2011
Number of events
Number of
people killed
Number of total
affected
Damage in US$
Asia Drought 147 9 663 389 1 666 286 029 31 739 865
Average per event 65 737 11 335 279 215 917
Africa Drought 269 844 143 318 936 829 5 419 593
Average per event 3 138 1 185 639 20 147
Americas Drought 123 77 65 133 841 20 811 139
Average per event 1 529 543 169 196
Oceania Drought 19 660 8 027 635 10 703 000
Average per event 35 422 507 563 326
Europe Drought 38 1 200 002 15 482 969 21 461 309
Average per event 31 579 407 447 564 771
Source: (CRED, 2012)
Table 3.1 above outlines a summary of droughts at continental level from 1900 to 2011. Asia has
the highest number of people affected by drought, with more than 9.6 million people killed and
the total damages adding up to $31 739 865. From the data presented in Table 3.1 above, Africa
has experienced the highest number of drought events, however the damages from drought in
Africa were very low as compared to Asia.
41
Figure 3.3: Map of areas at risk of water stress and drought
Source: (Emergency Response Coordination Centre (ERCC)-DG ECHO, 2019)
There are several countries that were at risk of experiencing water stress and drought in 2019.
Figure 3.3 above shows how nations in different parts of the world experienced different levels of
drought risk. Areas that had a high level of drought risk in 2019 include some parts of India,
Nigeria, Morocco and Niger. In 2019 Zimbabwe experienced medium level drought risk and some
parts of South Africa such as Cape Town, experienced medium to high level of drought risk
(Emergency Response Coordination Centre (ERCC)-DG ECHO, 2019). Drought and water stress
are a threat in many parts of the world especially countries that are underdeveloped and not able
to withstand the impact of drought.
42
3.2.3 Impact of drought in Africa
A great concern on the African continent is the number of drought events experienced on many
dry lands in Africa. Africa is reported to have experienced some dry and wet periods since the
eighth century (Jordaan, 2012). There have been periods of low rainfall recorded at around
1300AD, and there was an increase around 200 years later (Rain, 1999). Countries on the western
part of Africa have been affected by drought since the late 1630s. A terrible drought occurred that
resulted in the death of many people and dislocation from the states of Sahelian. These severe
droughts were experienced in the northern part of Nigeria, Mali and Niger and this was known as
the “great famine” (Tarhule and Woo, 1997). In the 1740s and 1750s there was a great drought in
this region. A study conducted by Masih, Maskey, Mussa and Trambauer, (2010) revels that severe
droughts were experienced in Sahel during the 1910s, 1940s, 1960s, 1970s and 1980s. From 1960
to 1980 there was an intense drought that killed about 100 000 people and left 750 000 people
depending on food aid (Jackson School of Geosciences, 2009).
Countries at the horn of Africa that include Somalia, Kenya, Uganda and Ethiopia have been
experiencing drought and famine more frequently. In the eastern part of Africa, at least 80 percent
of the population are into subsistence farming (Bexter, 2019). In the year 2008, millions of people
were facing starvation in the horn of Africa. The combination of three issues, drought, rise of
global food prices and a failed harvest resulted in seven million people experiencing hunger in
Kenya, Ethiopia and Somalia (Action Aid, 2008). The East African region experienced a drought
in 2009, which resulted in the drying up of rivers and scorching of crops, this gave rise to starvation
of millions of people in Kenya (Howden, 2009). This region experienced one of the worst droughts
of the century in 2011 and about 260,000 people lost their lives (Goldberg, 2019). The 2011
drought experienced in Kenya, Djibouti, Somalia and Ethiopia was recorded to be the worst in 60
years, this drought affected approximately 9.5 million people (UN, 2012).
43
Figure 3.4: Map of drought affected areas in the Horn of Africa
Source: (Emergency Response Coordination Centre, 2018; Relief Web, 2018)
Figure 3.4 above shows the severity of drought conditions that affected South-East Ethiopia,
Somalia and North-East Kenya. Nearly 15 million people in this region were facing food security
crisis (Relief Web, 2018). Ethiopia has the highest number of people in need of food security
(Figure 3.4). Drought in the horn of Africa is a major concern since the area is frequently affected
by droughts.
The Southern African region is one of the high-risk drought prone areas, the region has been
experiencing severe droughts and this can be attributed to sociological and metrological factors
44
(Emergency Response Coordination Centre, 2019). The region normally receives rainfall around
the months of November to March but there are some disruptions such as the El Nino that disturbs
the annual rainfall patterns (Relief Web, 2018). The region is faced by a low level of economic
development and it largely depends on agriculture, this makes the region more susceptible to
droughts (Emergency Response Coordination Centre, 2019). According to FAO (2019) farmers in
Southern Africa experienced the El Nino conditions for the second time in a period of three years.
Some parts of the Southern African region experienced a severe drought during the 2015/ 2016
season, this negatively affected the capability to produce food.
In 1982, Mozambique experienced its worst drought in 50 years and there was an exodus of
refugees to neighbouring Zimbabwe, which was also experiencing drought at that time (Masih,
Maske, Mussá and Trambauer, 2014). The 1882 drought also affected Botswana, water bodies
completely dried up and a lot of livestock was lost, nearly half of the total population relied on
emergency food supplies from developed countries (ActionAid, 2008). The 1991/92 drought is
considered to be one of the critical droughts on record in Southern Africa, this can be attributed to
the extreme reaching impacts that were experienced across all sectors of the society (Glantz,
Betsill, and Crandall, 1997; Vogel, Laing and Monnik, 2000).
In South Africa, three significant drought periods were observed from 1990 to 2005, in which the
country experienced below-normal rainfall. The main drought years in South Africa were 1991/92,
1997/98 and 2001/02 (Austin, 2008). Another drought that affected the region was the 2002
drought, it affected over 13 million people (World Press Revie, 2002). The number of people in
Southern Africa who were severely food insecure increased to 1.1 million people in Malawi (Relief
Web, 2019). It was estimated that Malawi had 3.3 million people that were experiencing an
emergency or crisis (IPC phase 3 and 4). Zimbabwe and two districts in Madagascar were in the
emergency category (IPC phase 4) which is the highest phase in terms of severely food insecure
people in the Southern African region (OCHA, 2018). There were also some few people
experiencing emergency food security (IPC phase 4) in Lesotho, Eswatini and Mozambique.
45
Figure 3.5: Map of areas affected by drought in Southern Africa
Source: (Emergency Response Coordination Centre, 2018; Relief Web, 2018)
Some countries in Southern Africa also experienced another wave of drought during the 2018/
2019 season. Countries that were most affected include Zimbabwe, Zambia, the southern part of
Mozambique, Namibia and Angola (Figure 3.5). Some provinces in South Africa were also
affected by the 2018/2019 drought and it was extremely dry in some areas. Table 3.2 below shows
the provinces in South Africa that were affected by drought between 2018 and the first quarter of
2019.
46
Table 3.2: South Africa drought outlook in the first quarter of 2019
Province Current
drought
status
Rainfall
status
Runoff
status
Groundwater
status
Dams status Drought outlook
Eastern Cape Severe Very low Very low Moderately
low
Low Critical
Gauteng Stable Normal Normal Moderately
high
Moderately
high
Stable
Free State Severe Very low Very low Moderately
low
Low Critical
Limpopo Moderate Moderately
low
Moderate Moderately
low
Moderate Condition to
worsen (if future
rains are
insufficient)
Kwa Zulu
Natal
Below
normal
Moderately
low
Low Moderately
low
Low Condition to
worsen (if future
rains are
insufficient)
Mpumalanga Moderate Normal Normal Normal Normal Stable
North West Severe Very low Very low Moderately
low
Very low Critical
Northern
Cape
Severe Very low Very low Moderately
low
Very low Critical
Western Cape Below
normal
Low Very low Moderately
low
Low Condition to
worsen (if future
rains are
insufficient)
Source: (Agri SA, 2019)
The Western Cape province experienced drought for a period of three years (2015 to 2018). The
province received less than the average rainfall and the rainfall records show that it was the lowest
recorded since the first written records in the 1880s (Wolski, 2018). According to the 2018/ 2019
Agriculture report for South Africa, the provinces that were experiencing critical conditions by the
first quarter of 2019 were Northern Cape, North West, Free State and the Eastern Cape (Agri SA,
2019). The report also indicated that Limpopo province, Western Cape Province and Kwa Zulu
Natal province more likely to have worsening conditions if there are insufficient rains in the future.
While South Africa is experiencing drought, the situation is even worse in Zimbabwe were at least
more than two million people are encountering starvation, this is after a severe drought affected
food harvests (Chingono and Adebayo, 2019). It has been reported that about 5.5 million people
47
in the rural areas of Zimbabwe are affected by drought during the peak of the hunger season and
almost 2.6 million children need humanitarian assistance (UNICEF, 2019).
There are some areas that are more prone to drought than others. African countries experience
drought at different levels. Figure 3.6 below shows the number of droughts African countries
experienced from the period of 1970 to 2004 (EM-DAT, 2011). It is clear from the data provided
in the map below that the countries that are more prone to drought are in the north- central and the
east of Africa. The number of droughts that affect countries in the southern part of Africa are
relatively high as compared to the countries in the central part of Africa.
Figure 3.6: Drought events in Arica
Source: (EM-DAT, 2011)
48
Almost all the countries that are affected by drought are located within the arid and the semi- arid
zones of Africa (WMO, UNEP, 2009). Zimbabwe is in the category of countries that have
experienced the highest number of droughts (1970 to 2004), with at least 10 droughts (EM-DAT,
2011). Mashonaland Central is one of the provinces in Zimbabwe that has been experiencing
drought and is likely to experience more droughts because of the effects of climate change that the
country is exposed to. In Zimbabwe, drought is regarded as a familiar hazard that constitutes six
disasters out of ten disasters from 1982 to 2012. Some of the droughts are connected to the El-
Nino Southern Oscillations (ENSO) in the Pacific Ocean, (Brown, 2014). According to Brown
(2014), drought takes place at least once in every two years nation-wide, affecting more semi-arid
regions.
Table 3.3: Top natural hazards in Zimbabwe
Year Disaster Number of people affected
1982 Drought 700 000
1991 Drought 5 000 000
1996 Epidemics 500 000
1998 Drought 55 000
2000 Cyclone induced floods 266 000
2001 Drought 6 000 000
2007 Drought 2 100 000
2008 Epidemic 98 349
2010 Drought 1 680 000
Source: (Centre for Research on the Epidemiology of Disasters (CRED), 2012)
The drought years, occurred at various intensities and severities, but the effects of the droughts
were overwhelming as shown in Table 3.3 that between 200 000 to a million individuals were
disturbed every time drought affected the country. The severities of droughts in the nation were
categorised as mild, extreme or severe. The worst droughts transpired in 1982 and 1983, and the
terrible drought years took place in 1968, 1973, 1982 and 2004, the mild drought years occurred
in 1951, 1960, 1964, 1965, 1970, 1984, 1987, 1991, 1995, 2002, 2003, 2005 , 2007, 2008, 2009,
and 2010 (Drought Monitoring Centre, 2012).
49
3.3 DROUGHT AND CLIMATE CHANGE
Climate change involves change that is related directly or indirectly to some human action, that
changes the components of global atmosphere and the natural climate variability detected over
comparable periods (UNFCCC, 1992). Climate change is a progression that is expressed in so
many ways, including a rise in the average temperatures, variations in rainfall that leads to
droughts, floods and in some cases, leading to desertification (Alam, Bhatia and Mawby, 2015).
The warmer temperatures experienced due to climate change increases evaporation in plant soils,
which also affect the plant life and decreases rainfall even more (Climate Reality Project, 2016).
Climate change has affected the rate of drought risk in most parts of the world. Over the previous
decade, several studies were published about climate change and issues related to drought. Even
though droughts have several causes depending on the section of the world and some natural
factors, many scientists have associated more extreme droughts with climate change.
3.3.1 The patterns and trends of climate change
Climate Reality Project (2016) suggested that the increase in greenhouse gas emissions causes air
temperatures to intensify and more moisture to evaporate from the land and rivers, lakes and other
water bodies. The impacts of climate change affect the natural and the human systems, it depends
on adaptability and one can make a distinction between the potential impacts and the residual
impacts (IPCC, 2007).
Even though droughts can have various causes and it also it depends with the area of the globe as
well as other natural factors, several scientists have linked more extreme droughts to climate
change. This is because there is a lot of greenhouse gas emissions which are discharged into the
air, and this causes an increase in air temperatures, a lot of moisture evaporates from lakes and
land, rivers and other water bodies (IPPC, 2007). Table 3.4 below illustrates how climate change
has influenced different regions in the world. Africa and Latin America have the highest rate of
drought or water shortages (Spring, 2015). Climate change has been causing global drought risk
50
for more than a century. Research on tree ring records has been carried out to establish the
magnitude of human cause of climate change. The researchers used “fingerprinting” technique to
observe the phenomenon. The scientists compared the rings of a tree and meteorological records
to model the simulations of the climate from the year 1900 to 2100 (Dunne, 2019). The researchers
concluded climate change is influenced by humans.
Table 3.4: Climate change effects per region
Water shortages due
to drought
(percentage)
Severe weather like
massive storms and
floods (percentage)
A long period of
remarkable weather
(percentage)
Sea level rising
(percentage)
Africa 59 18 16 3
Asia/Pacific 41 34 13 6
Europe 35 27 8 15
Latin America 59 21 12 5
Middle East 38 24 19 5
US 50 16 11 17
Global 44 25 14 6
Source: (Spring, 2015) Global concerns about climate change
There has been record-breaking intense weather witnessed in Africa and other parts of the world
since 2016. The summer of 2015 and 2016 was coupled by the worst El Niño event ever recorded
(Baraki, 2019). The warmest year to be recorded in history was 2015. This period of extraordinary
high global temperature is attributed to systematic global warming under the heightened
greenhouse effects, which combine with the natural variability in the form of extreme El Niño
episodes. To prove that climate change has a great effect in African countries, the interior of Africa
recorded an average monthly temperature of 5 °C beyond the monthly average atmospheric
temperatures (Engelbrecht et al., 2016). The Southern African region is anticipated to become drier
under the heightened anthropogenic forcing, leading to a rise in dry spells and droughts
(Christensen et al., 2007 and Engelbrecht et al., 2009). East Africa and the tropical region of Africa
are anticipated to turn out to be generally wetter (Christensen et al., 2007; Engelbrecht et al., 2009;
James and Washington, 2013; Baraki, 2019).
51
Figure 3.7: Map showing changes in climate over 50 years
Source: (Dai, 2014)
52
Figure 3.7 above illustrate the linear trends in (a) observed precipitation trends (b) calculated self-
calibrated (PDSI) with Penman-Monteith possible evapotranspiration for the period of 1950 to
2010 (Dai, 2013; Nature Climate Change), (c) detected river runoff from 1948 to 2004 (Dai et al.,
2009). The major impacts of human induced climate change in the future decades are expected to
come from a great percentage variation in climate extremes and weather. The extreme events are
expected to change at a faster rate than the mean climate.
Significant drying trends might have previously transpired ever since the 1950s in many regions
such as most of Africa, East and South Asia, eastern Australia, Southern Europe, and parts of
Central and South America. Historical records of the stream flow, precipitation as well as drought
index (Figure 3.7) illustrate this. The rising of temperature ever since the end of the 1970s has
heightened dryness around many regions. Even though natural, decadal precipitation variations
might have contributed significantly to the past drying trends in some regions such as South Asia,
eastern Australia and USA (Dai, 2011).
During the 4th Assessment Reports of the IPCC (Alley et al., 2007) a summary of the observed
variations in the hydro climatological variables was delivered. Records of global surface
temperatures indicate that the period from 1995 to 2006 is classified amongst the twelve warmest
years ever to be recorded in the last 150 years. Extensive variations in extreme temperatures were
observed for a period of 50 years and it has been discovered that colder conditions are becoming
less frequent, whereas heat waves and hot days are more frequent (IPCC, 2007). Extreme and
longer droughts were witnessed over extensive regions ever since the 1970s, especially in the
subtropics and the tropics (Van Lanen, Tallaksen, Rees, 2014). These droughts have been
associated with a decrease in precipitation and higher temperatures. Droughts have worsened in
some areas because of an increase in water demand. Global warming might also lead to a system
modification in some certain regions that experience ice and snow, where these higher
temperatures results in earlier melting of snow as well as extensive growing season. This kind of
trend confirms observations that shows that the commencement of the growing season in the mid-
53
latitudes has evidently advanced ever since 1989 (Chmielewski and Rötzer, 2002). Accordingly,
this is likely to result in an increase in the severity and frequency of summer drought in these areas.
Figure 3.8 shows the increase in temperature that has been experienced in each continent. The
dramatic escalation of temperature ever since the 1990s is an indication that there is need to be
concerned about climate change (IPCC, 2007).
Figure 3.8: Changes in temperature at continental level
Source: (IPCC, 2007)
Summary of the IPCC report on global warming
Very high confidence:
• Timing early spring events such as bird migration and laying of eggs, leaf unfolding,
poleward changes in animal species and plants.
• Distinct effects on biological and physical systems.
54
• Intensified run-off as well as earlier spring peak discharges in the snow-fed rivers and
glacier.
• Natural systems that are linked to snow, frozen ground and ice are affected.
• Warming of rivers and lakes has a negative influence on the quality of water and thermal
structure.
High confidence
• Changes in salinity, ice cover, circulation in the water system and oxygen level.
• Changes in ranges as well as the migration of fish in rivers.
• In spring, the vegetation turning green earlier is associated with a longer growing season.
• Changes in algae, fish and plankton and shifts in ranges as well as fish abundance in the
oceans that are in the northern hemisphere.
• Changes in the marine biological systems and changes in freshwater.
Medium confidence
• Have an impact on humans’ activities in the Artic.
• Changes developing in some parts of human health.
• Impact on human activities and development due to the sea level rise in regions with low
altitude.
• Changes in forest management and agriculture such as planting spring crops beforehand
in the northern hemisphere.
There are some uncertainties that the IPCC encountered in the climate change projections. The
South African Weather Services (SAWS) (2003) agrees with the IPCC on uncertainties of the
future values of precipitation in Southern Africa. However, Engelbrecht, McGregor and
Engelbrecht (2008) applied the Conformal- Cubic Atmospheric model (CCAM), they came up
with some prediction which indicated less precipitation in the western regions of South Africa. It
55
is expected that in South Africa, temperatures will be higher (2-4 degrees more), this will affect
agriculture and the ecosystem. Below are some of the changes expected in South Africa (SAWS,
2003; DEAT, 2009: Hewitson, 2010).
• More temperature inversion.
• The western part of South Africa will experience dryness.
• Regions in the east coast will be expected to become wetter.
• More drought and floods in the country.
• An increase in the entire country air temperature to about 3 to 4 degree.
Climate change and upcoming droughts enhancements in knowledge have strengthened the
outcomes of the IPCC fourth assessment report, (IPCC, 2007) particularly intensifying risk of
abrupt, rapid and irreversible change as well as higher levels of warming. Such risks comprise
increase in intensity of aridity, drought as well as extreme temperatures in so many areas of the
globe (World Bank, 2012). Regardless of the uncertainties in the climate projections, several areas
in the world are more likely to be subjected to an increase in drought frequencies and/or intensity
in the 21st century. Countries that are likely to be affected are those in the Southern part of Africa,
Central America, Mediterranean and South-Western North America (Orlowsky and Seneviratne,
2012). An increase in temperature of 3°C is expected to bring about existing 100-year droughts to
about 30 percent of the highlighted areas on a 10-year basis (Naumann, Alfieri, Wyser, Mentaschi,
Betts, Carrao, Spinoni, Vogt and Feyen, 2018). These kinds of scenarios propose that drought risk
will likely increase for several regions and vulnerable sectors unless proper climate change
adaptation and mitigation measures are taken.
The IPCC fifth assessment report indicated that there are going to be uneven changes in
precipitation, areas that are in the equatorial Pacific and high latitudes are expected to be subjected
to an escalation in annual mean precipitation (IPCC 2014). In several subtropical and mid-latitude
dry areas, the mean precipitation is expected to decrease, whereas in various mid-latitude wet
areas, the mean precipitation is expected to increase (Coast Adapt, 2017). Extreme precipitation
56
events over the wet tropical regions and most of the mid-latitude land masses has a great chance
to become more frequent and more severe (IPCC, 2014). Figure 3.9 below shows the changes in
the average precipitation (1986 -2005 to 2081-2100). According to the IPCC projections, areas in
the Southern part of Africa including Zimbabwe are likely to experience more droughts.
Figure 3.9: changes in the average precipitation (1986- 2005 to 2081- 2100)
Source: (IPCC, 2014)
Future climate will be determined by continued warming that is due to previous anthropogenic
emissions, in addition to future anthropogenic emissions as well as natural climate variability
(Coast Adapt, 2017). Figure 3.10 below shows the changes in the average surface temperature.
Mean surface temperature change for the globe during 2016 to 2035 relative to 1986 to 2005 is the
same for the four RCPs and is expected to be in the range of 0.3°C to 0.7°C (medium confidence)
(IPCC 2014). By mid-21st century, the magnitude of anticipated climate change is substantively
influenced by the selection of emissions scenario.
57
Figure 3.10: Changes in the average surface temperature (1986-2005 to 2081-2100)
Source: (IPCC, 2014)
The following are IPCC summary of the impacts of global warming of 1.5°C (IPCC, 2018)
• Human activities are projected to have triggered around 1.0°C of global warming beyond
the pre-industrial levels, with a possible range of 0.8°C to 1.2°C. Global warming is
expected to reach 1.5°C between 2030 and 2052 there is a continuous increase in the
current rate (high confidence).
• Climate models anticipate vigorous changes in regional climate characteristics amongst
present-day, global warming of 1.5°C, and between 1.5°C and 2°C. The dissimilarities
consist of increases in: the mean temperature in most ocean and land regions (high
confidence), hot extremes in several occupied regions (high confidence), intense
precipitation in most areas (medium confidence), and also the possibility of drought and
precipitation deficits in several regions (medium confidence).
58
Figure 3.11: Map showing projected drought risk areas on the globe
Source: (NBC NEWS, 2010)
To understand the intensity of severe the droughts, scientists use the Palmer Drought Severity
Index (PDSI). A positive score indicates that it is wet, a negative score indicates that it is dry and
then a score of zero is neither excessively dry nor wet. The Sahel region in West Africa drought,
recorded a PDSI of -3 or -4 in the 1970s, this was the most severe drought recorded (UNDRR,
2019). Figure 3.11 demonstrates the potential of experiencing drought by 2039, according to the
data on the current predictions of future emissions of greenhouse gases. If the scale has, a reading
of -4 or less, it is regarded as extreme drought. Regions that have green or blue are at lower risk,
whereas those regions in the purple and red spectrum are likely to experience extreme drought
(NBC NEWS, 2010).
The study conducted by the National Centre for Atmospheric Research in 2010 suggested that
there are going to be serious impacts as we approach the 2030s. By the end of the century, the
59
impact of drought is projected to go beyond what was historically recorded and the consequences
for people across the globe will be enormous as indicated by Figure 3.12 below. As atmospheric
carbon dioxide and some greenhouse gases will continue to increase, the impact of global warming
will likely to turn out to be progressively more dominant over natural variations in the future
decades (Dai, 2014). The changes in the mean shift can lead to higher increases for example
projections are expected to double by the 2090s in the global drought regions, as shown by Figure
3.10.
60
Figure 3.12: Map showing the projection of drought up to the end to century
Source: (National Centre for Atmospheric Research, 2010)
61
Apart from socio-economic characteristics and soil, temperature and rainfall generally account for
national variations in rain-fed African agriculture (Kurukulasuriya and Mendelsohn, 2008).
Zimbabwe is experiencing the impacts of climate change, there are many changes that are being
experienced in this Southern African country. Some of the changes include raising temperatures
and a decrease in precipitation in most parts of the country. Projections on the future of climate
change were carried out using 10 out of 21 accessible Global Climate Models (GCMs) that were
applied in the IPCC Fourth Assessment Report. They proposed potential impacts related to those
changes. Future climate projections suggested that Zimbabwe would experience an increase in
temperature of around 2.5°C by 2050 (Table 3.5).
Table 3.5: Climate projections
Climate feature Key messages
Past climate variability High variability, frequent drought years and flood events
Past climate trends Increasing temperatures (~0.1°C/decade)
No conclusive changes in precipitation
Future climate trends Increasing temperatures of around 2.5°C by the 2050s
Possible decrease in rainfall particularly during the onset stage of
the rainy season (Sep- Nov)
Source: (Taylor, 2012)
Based on the historical climate conditions along with recent trends, the mean annual temperature
of Zimbabwe has increased by 0.01 to 0.02°C per year from 1950 to 2002 (USAID, 2015). The
Meteorological service of Zimbabwe revealed that the minimum daily temperature has escalated
by around 2.6°C in the last century. At the same time, there was an increase in the daily maximum
temperatures. These increased by 2°C in that period, while the number of cold days has reduced
and hotter days have increased (Brown, Chanakira, Chatiza, Dhliwayo, Dodman, Masiiwa,
Muchadenyika, Mugabe and Zvigadza, 2012). An increase in intensity in hot days and nights, as
well as a decrease in cold days and nights in decades is the same as with the universal warming
trend.
62
Table 3.6: Temperature projections for Zimbabwe
Projection Possible Impacts Confidence of the projection
2 to 2.75o C temperature
increase by the middle of the
century (the period 2046-
2065)
Changes in forest biomes
Diminished quality and supply of
water
Changes in crop yield
Melting of tar on roads
High confidence
Source: (Taylor, 2012)
Taylor (2012) concluded that there is a high confidence level of agreement concerning the
predictions of temperature generated by various Global climate models. The projected changes of
temperature in Zimbabwe range from 2°C to 2.75°C and the temperatures are likely to raise
between the year 2046 to 2026 (Table 3.4). The western side of the country is expected to have
greater changes in temperature (Taylor, 2012).
Rainfall patterns in Zimbabwe were disturbed by climate change. The rainy season, that usually
commences from the middle of November and ending by April has changed and in the current
years, it begins in December and gradually becoming uncertain (Manyeruke, Hamauswa,
Mhandara, 2013). The overall rainfall in the Southern African country has declined by 5% since
1901 and the country experienced the driest seasons in the 1990s (Manjengwa, Matema, Mataruka,
Tirivanhu, Tamanikwa and Feresu, 2014). The timing and the amount of rainfall in the country is
becoming more uncertain. The frequency as well as the length of dry spells has escalated even
though raining days have reduced (Manjengwa et al., 2014). Figure 3.11 below indicates that
rainfall is decreasing, meaning the country is more likely to be subjected to below normal rainfall
for several seasons as contrasted to previous decades.
63
Figure 3.13: Zimbabwe rainfall deviation
Source: (Zimbabwe Department of Metrological Service, 2002)
The rainy season of 2007 to 2008, turned out to be different from other seasons in the past, there
were heavy rainfall between November and December, and this broke the records and this was
followed by a drought in the course of the last part of the rainy season (Jan to April). This is an
indication that the rainfall seasons have become uncertain, unusual and unpredictable as they are
characterised by floods, droughts and dry spells (Taylor, 2012).
64
Figure 3.14: Map showing soil moisture anomaly in Mashonaland Central
Source: (Global Drought Observatory (GDO) Analytical report, 2019)
Soil moisture anomaly is one of the indicators and is used to carry out the assessment of topsoil
water content. It is a direct measure of drought situations, especially when plants find it difficult
to obtain water from the soil (Global Drought Observatory (GDO) Analytical report, 2019). Figure
3.14 above shows the soil moisture content in Mashonaland Central province. Areas shaded in
dark brown shows that the soil moisture was very low, and these areas include some parts of
Guruve district and Mazabani district. Some parts Mt Darwin district, Bindura district and Mazoe
district indicated that the areas were drier than normal. In the whole province of Mashonaland
Central between March and April 2019, there was no area which was wetter than normal. This is
an indication that the area experienced a drought since these results were taken at the end of the
rainy season (Taylor, 2012).
65
Table 3.7: Rainfall projections for Zimbabwe
Projection Possible Impacts Confidence of the projection
Decrease in early season
rainfall in Sept to Nov and
later onset of Dec-Jan rainy
season is expected by the
middle of the century (the
period 2046-2065)
Changing crop patterns
Increased erosion loss of soil
water retention
Wells and boreholes dry up
Decreased water availability leads
to poor sanitation and is associated
health impacts
Disruption to hydroelectric power
Low confidence
Source: (Taylor, 2012)
The rainfall projections (Table 3.6) shows that there is a slight agreement and that mean there is
low confidence in the information that was presented. Several models have projected an increase
in rainfall in the rain season around December to February, whereas other models indicated some
drier conditions (Taylor, 2012). The pattern which shows some uniformity is a reduction in early
season rainfall between the months of September to November, this is an indication that there is a
later commencement of the rainy season in the future.
3.4 WOMEN AND CLIMATE CHANGE
When a drought strikes, poor communities are affected first. Since women are part of the estimated
70 percent of individuals who are living under the poverty line, women are highly likely to endure
the viscous burdens (Oxfarm, 2018). In most cases, women are left out when there is a conversation
regarding adapting to climate change, though they sometimes provide the best solutions. The
differentiations in responsibilities and roles of women and men in farm households tend to affect
their capability to adapt to climate change and the choices of adaptation strategies. On the other
hand, governments, NGOs and development agencies usually do not have enough information
desired to accelerate gender-sensitive adaptation to climate change (Kristjanson, Bernier, Bryan,
66
Brngler, Dick and Ampaire, 2015). Women are not equally represented in decision-making or
policymaking and programmatic design. Across the globe, women are side-lined from economic
and political power and they possess inadequate access to material and financial resources, this
worsens their vulnerability to the impacts of climate change (Alam, Bhatia, and Mawby, 2015).
Women are more likely to be affected to by the impacts of climate change as compared to their
male counterparts (Kristjanson et al., 2015). Climate change affects women since they are the main
crop producers. In many poor societies, women are involved in dual roles, they provide for their
families by working on the farms and they are expected to take care of their children and do some
house chores. Because they bear all these responsibilities, women often possess invaluable
knowledge regarding adapting to unpredictable environmental changes. On the other hand, socially
constructed tasks and their responsibilities generally disadvantage them, when it comes to
preparing for climate change (Oxfarm, 2008).
The United Nations Development Programme (2009) reported that women constitute 43 percent
of the overall agriculture workforce in the world. Most women are involved in farming and most
of the women farmers produce almost 90 percent of the food supply in Africa (Food and
Agriculture Organisation, 2014). Most of the women are subsistence farmers with a few
commercial farmers because most of the women do not own land. This restricts them from
accessing resources such as market, finance, water and government facilities. The risks women
face because of climate change lead to income and food insecurity and restrained decision-making
capabilities result in undesirable impacts on the health of women. By not addressing the challenges
women face in climate change policy this jeopardises the global food security (Maass Wolfenson,
2013). Women are directly affected by the impacts of climate change, therefore if their issues are
not addressed then the agriculture sector will suffer a great loss because they will not be able to
produce crops as before.
For some of the women who have survived the impacts of droughts and other climate change
associated events, the ability to adjust to the new conditions might be very challenging. Women
67
usually do not have legal assets as well as rights to property, this leaves them with few resources
to re-establish their lives (Neumayer and Plümper, 2007). The scarcity of livelihood means women
preside over households lacking the social stature or the material resources. Climate change
exhibits in different ways. Some are rapid-onset events that may result in destruction of lives,
property and livelihoods in a day, others are slow-onset developments change to the surroundings
over a period of time (Alam, Bhatia and Mawby, 2015). Customs and discriminatory laws hinder
women from acquiring land, retaining land and some assets. Therefore, it will be difficult for
women farmers to succeed in farming because of climate change and other general discriminatory
issues that they are subjected to.
The 2030 Agenda incorporates 17 SDGs, 169 targets and a declaration version pronouncing the
principles of incorporation, universality, transformation and a global corporation. The agenda was
established over unique global procedures of an open working group that jointly established the
17 SDGs, which were successively adopted by every UN member states (Beisheim, 2015). The
2030 Agenda reveals the significance of climate change adaptation and mitigation for global
sustainable development (Dzebo, Janetschek, Brandi and Iacobuta, 2019). Goal 13 of the
sustainable development goals requires the countries to make urgent actions to fight climate
change and the associated impacts. The goal emphasised on strengthening resilience and adaptive
capacity to hazards that are climate related and natural disasters in all nations. The goal also laid
emphasis on issues on improving education, raising awareness and institutional and human
capacity on climate change adaptation, mitigation, early warning and impact reduction (UN, 2015).
Women have a crucial part to play in every SDG, most of the targets specifically distinguish
women’s equality and empowerment as objective, and part of the solution (UN Women, 2018).
Goal 5 is regarded as a stand-alone gender goal since it is set aside to accomplish these ends. The
goal emphasises the end of discrimination towards all women, women are encouraged to
participate effectively and there must be equal opportunities for leadership position. There must
be reforms for women to offer women equal rights to economic resources, in addition to access to
68
ownership of land and other types of property, inheritance, financial services and natural resources,
in agreement with the national laws (UN, 2015). The most vulnerable individuals are generally at
risk from climate change, including poor women. For these women, the impacts are already a daily
reality. Women can offer constructive information regarding effective handling of climate and
associated risks (UN Women, 2018).
After the Sendai Framework for Disaster Risk Reduction, there was need to discuss the
proceedings, therefore the Cancum agreement was initiated. The platform discussed issues on
gender-sensitive and inclusive disaster risk reduction. They identified that there were strong
persistent gender disparities in disaster risk reduction and calls to recognise and encourage women
leadership, empowerment and engagement in decision-making, implementing and monitoring of
gender sensitive (UNDRR, 2017). There was also emphasis on providing sufficient capacity
building and education to permit women transformative responsibility as agents for change in
disaster risk management. There were also requests for women in leadership positions in the
private and public sectors at national and local levels to stand-in for gender equality in disaster risk
management (UNDRR, 2017).
Countries decided to implement the Paris Agreement under the United Nations Framework
Convention on Climate Change. The Paris Agreement acknowledges the necessity for an efficient
and progressive reaction to the critical danger of climate change based on existing scientific
knowledge (UN, 2015). The agreement recognises that climate change is a common concern for
people. Actions should be taken to address climate change, promote, respect and consider
obligations concerning human rights and individuals in vulnerable circumstances, gender equality,
intergenerational equity and empowerment of women (UN, 2015). Women are regarded as natural
and environmental resource managers. Women have the understanding and knowledge needed to
develop the resilience of their societies to escalating natural hazards (UN, 2008). To experience
community change and efficient development women must be included as planners, decision-
makers, sources of knowledge and implementers.
69
3.5 VULNERABILITY OF ZIMBABWEAN WOMEN TO CLIMATE CHANGE
Climate change has presented a major threat to people’s security, particularly for women since
they represent 70 percent of the poor people in the world (Brown, Chanakira, Chatiza, Dhliwayo,
Dodman, Masiiwa, Muchadenyika, Mugabe and Zvigadza, 2012). As reflected in Table 3.8 below,
it was established that climate change is going to aggravate dimensions in gender vulnerability,
which already exists due to the prevailing gendered divisions of labour and social inequalities
(Alber, 2009; Brody et al., 2008; Dodman, 2010; WEDO, 2008). Adding to the unbalanced
consequences of disasters on women’s morbidity and mortality, climate change is estimated to
endanger women’s livelihoods by decreasing economic prospects, particularly for households that
are headed by women (Dodman, 2010).
Table: 3.8 Vulnerability of women to climate change
Climate impact Underlying socio-economic risk factors Vulnerability of women
Crop failure • 70% of Zimbabwean women are small
holder farmers
• Increased agriculture
workload
• Strain on food provision
Diseases • Cultural constraints on mobility
• Gender division of reproductive
labour/care giving
• Women of all ages lack
access to health care
• Additional time required to
care for young, sick and
elderly
Disaster • Women and children often lack skills and
knowledge and resources
• Women and children are
more likely to die than men
during disaster events
Shortage of safe
drinking water • Gendered division of household labour • Exposure to
violence/sexual abuse
when travelling to and
from water sources
Migration • Women who become de facto household
heads may face difficulties in retaining
control over land and other productive
assets due to unequal property and land
rights.
• Males may contribute little to household
income
• Decreased coping capacity
and insecure tenure
• Increased/ agriculture
overload
Resource scarcity • Women have lower levels of educational
attainment
• Women earn lower wages and have limited
access to markets
• Limited resources to invest
in alternative livelihoods
70
• 70% of women worldwide are poor
• Women are over-represented in the
informal sector
• Limited time and resources
to invest in more resilient
land and shelter
Displacement • Problems in temporary housing/ relocation
sites
• Women and young girls
face higher rates of sexual
abuse and violence
Source: (Brody et al, 2008; WEDO, 2008; Dodman, 2010)
Seventy percent of women who are farmers in Zimbabwe are smallholder farmers, depend on rain-
fed agriculture and make use climate-sensitive resources (Madzwamuse, 2010). This makes
women to be vulnerable to the knock-on consequences of climate change. In Shurugwi, one of the
rural areas of Zimbabwe women recounted a change in their livelihood strategies by brewing beer,
this resulted in higher rates of alcoholism which lead to domestic violence and an increase in abuse
against women (Brown et al, 2012). In some instances, the impacts of extreme weather and drought
have resulted in adjustments in gender-recognised roles about collection of water, and this has
created some additional responsibilities to women.
Even though women are known to be affected by climate change, they remain generally absent in
decision-making procedures regarding climate disaster risk reduction and change adaptation. This
is determined by a lack of gender issues in policy frameworks that involve the protection of the
environment, and management of natural resources in Zimbabwe (Chagutah, 2010). This is
counterproductive as women are usually at the centre of post-disaster recovery and adaptation. The
United Nations International Strategy for Disaster Reduction (UNISDR) Hyogo Framework for
Action pointed out that gender issues must be incorporated into every disaster risk management
plans, policies and decision making procedures which include those connected to early warning,
training, information management, and education (UNISDR, 2009). When planning, governments
must integrate gender sensitive perspectives that call for an understanding in the way’s climate
change can strengthen the preceding inequalities that exist between women and men (Chagutah,
2010).
71
3.6 WOMEN IN AFRICAN AGRICULTURE
Women play a crucial role in agriculture, and most of the women who live in the rural areas of
Africa survive on agriculture. According to the FAO (2011), women in most African countries
devote almost 60 percent of their time to activities that are agricultural related. Nelson (2013)
pointed out that women make up most of the agrarian labour force. Women farmers constitute
about 50 percent of labour on farms in the sub-Saharan Africa region (FAO, 2011). Of the women
in the sub- Saharan region who are employed, 60 percent of these women are employed in the
agricultural sector (Sibanda, 2012). Although women dominate the agricultural labour force, the
laws that govern the ownership and handover rights over land do not favour women in Africa, Asia
and Latin America (NEPAD, 2013).
Women Accessing Re-Aligned Markets (WARM) is a programme that was examined by the Food
Agriculture and Natural Resources Policy Analysis Network (FANRPAN), there were indigenous
associates in Mozambique and Malawi (Sibanda 2012). The programme concentrated on the
difficulties women in agricultural was experiencing and policy-making procedures in sub-Saharan
Africa. The programme was established to tackle agricultural market obstructions that are
prevalent to women farmers in Africa. These include inadequate representation of women in policy
developments, relegation in business interactions, and insignificant influence over access to
elements of production such as land and inputs (Kameri-Mbote, 2006). Table 3.9 below shows
some of the challenges and the possible solutions for women in Mozambique and Malawi outlined
by the WARM programme (Sibanda, 2012).
72
Table 3.9: WARM programme in Mozambique and Malawi
Region Challenge Detail Community solution
Boane,
Mozambique
Access to credit
facilities
Weak capacity of women farmers
to articulate strategy for accessing
credit
Mechanism of accessing credit
must be simplified for the
farmers
Boane,
Mozambique
Producer spoilage Produce spoilage due to distant
markets, lack of dedicated markets,
transport challenges
Creation of the local markets
that serve farmers better,
investment in value adding
industries and development of
road linking farmers to
markets.
Boane,
Mozambique
Low producer price Weak farmer’s organisation, price
negotiations and advocacy skill.
Capacity development
initiatives
Marracuene,
Mozambique
Lack of appropriate
seed
Lack of appropriate seed and
inadequate knowledge of using
improved seed and fertiliser.
Private sector support to invest
in input distribution, increased
extension support
Lilongwe,
Malawi
Mismanagement of
input vouchers
Malpractices are affecting access
by women to inputs at Agriculture
Development and Marketing
Corporation (ADMARC) markets
and access to voucher/coupons
Government must introduce
mitigation measures at
ADMARC
Lilongwe,
Malawi
Women access to
land
Very few women farmers own land
in their communities
Introduction of appropriate
empowering policies and
bylaws
Source: (Sibanda, 2012)
In Kenya, women constitute around 42 percent to 65 percent of agricultural labour force
(Ahearn,and Tempelman, 2010; World Bank, 2014) in addition to other domestic household tasks.
Regardless of women’s significant responsibility in the agricultural sector, empirical evidence
suggests that women linger behind men when it comes to agricultural production in sub-Sahara
Africa. This is because, there are gender inequalities related to access of land, control over land
and the operation of constructive resources for example land, livestock, extension and financial
services, education and technology (Ahearn,and Tempelman, 2010; Zereyesus,2017; Oseni,
Corral, Goldstein, Winters, 2015). In Kenya, only 0.5 percent of women have been able to obtain
some financial services and only about 6 percent own land (FIDA 2009). There are a few women
farmers who own land in Kenya, hence most female farmers find it difficult to access formal credit
due to lack of collateral (Ellis, Manuel and Blackden, 2005).
73
Women farmers in Nigeria are involved in a number of agricultural practices and processes and
play a huge role in improving the economy of the country (Adenuba and Raji-Mustapha, 2013)
Despite their contribution to the domestic or subsistence sector, women are not recognised or
valued (Akpan, 2015).
Research has revealed that women empowerment is more likely to result in improvements in
women status including excessive management over household resources, improved mental health
and improved access to financial provisions (Diiro1, Seymour, Kassie, Muricho, Muriithi, 2018).
Women have made significant contributions in agricultural production, nutrition as well as food
security (Seebens, 2011; Ross, Zereyesus, Shanoyan and Amanor-Boadu, 2015; Zereyesus, 2017).
The push for gender equality is an issue in rural development policy that intends to attain lasting
food security and alleviation of poverty in agrarian economies such as those found in sub-Sahara
Africa (Doss, 2013; Akpan, 2015).
A declaration was made by African leaders at the African Union Summit in 2015 to promote
women’s empowerment and development by 2063. The declaration requested the AU member
states to intensify technological inventions, mechanisation, education and skills development for
women (FAO, 2017). Member states also committed to strengthening the financial involvement of
women in agri-business and making modern technologies in agri-business and agricultural value
chains available to women with skills and knowledge to use them (Zereyesus, 2017). Furthermore,
they committed to upholding women’s rights to own valuable possessions such as land and gaining
access to community procurement developments in agri-business (NEPAD 2013). Better regional
incorporation will assist African agricultural divisions to utilise opportunities that are in regional
markets.
In a research conducted by Ncube, Mangwaya and Ogundenji (2018), women in Zvishavane were
involved in drought mitigation planning, planning of land use and planning of preparedness
strategies. Although women make most contributions in farming, their views are not usually
accepted. Approximately 86 percent of Zimbabwean women depend on land for their families and
74
their livelihood (FAO, 2017). The traditions of the country allowed all married male community
members to have ownership of arable farms or plots. The privilege of apportionment lies with the
local government authorities and the traditional leaders functioning with the authority given by the
Rural District Council Act (1988) and the Communal Lands Act (1982). Women in farming need
to be more resilient for them to overcome the challenges caused by drought.
3.7 WOMEN AND RESILIENCE
Resilience is a scientific word which relates to people who have the capability to go back to their
original state after experiencing a negative situation (Ganter, 2015). Most women desire the
capability to become resilient and this strength is regarded as an important aspect of life. Both men
and women require resilience to handle life challenges (Brody et al. 2008). However, women
usually require additional form of resilience than their male counterparts to overcome the
traditional complications that are placed their way. So many women do not know the kind of
resilience that they have. Ganter (2015) described the following five characteristics of resilient
people:
• A sense of purpose: When you possess a sense of purpose, you are likely to live with a
driving force. Being aware of their purpose gives women the ability to overcome
challenges that they are exposed to. For instance, the driving force for women in farming
should be to feed the family.
• Perseverance: People who are resilient usually demonstrate the capacity hold on to the
goal that they want to achieve, they can face some challenges but they will not give up until
they come out of the situation that is disturbing them. For instance, women farmers who
are affected by drought will persevere in practicing farming until they manage to find ways
to handle challenges brought about by drought.
• Equanimity: For one to become resilient, you should stay balanced. It is very important
to be aware that irrespective of the circumstances it is certainly not completely bad. A
75
middle ground exists, and it allows people to see all opportunities and this will give a
person the optimism required to make things better.
• Self-reliance: A person who is resilient must believe in themselves and must also set
realistic goals. Past difficulties strengthen a resilient person. The negative and positive
experiences in the past will assist a person to deal with new problems, causing problem-
solving skills to develop. For instance, women in farming who experienced drought in the
past can develop the capacity to deal with the problem by applying some of the measures
they applied in the past or new measures.
• Existential aloneness: For a person to become truly resilient, one needs to be capable to
live with oneself. This is when a person is comfortable with what they possess or what you
are. Women who are resilient are comfortable about their gender and cannot allow anyone
to undermine their capability.
For women to become resilient to climate change induced disasters such as drought there are some
initiatives that must be taken by the government, NGOs and other institutions that assist in disaster
management (Brown et al, 2012). To assist in building resilience in women, there must be adaptive
programmes, which incorporate gender differences in the context of exposure to climate change,
the extent of vulnerability, as well as the capacity to adapt (Brody et al., 2008). There are important
issues that affect women that need to be addressed. Issues such as gender specific barriers affect
women in agriculture and in other sectors as well. Initiative that promotes gender equality,
effectiveness and efficiency must be on the top of the agenda in developmental issues in the world
(Terry, 2009). The UNDP encourages its partners to involve women as planners and stakeholders
in up-and-coming actions on disaster resilience and climate change. It aims to ensure that women
are given equal access and control of the resources they need to adapt to and mitigate climate
change effects (UNDP, 2009).
76
The United Nations think tank (2015), views resilience as an integrated system of adaptive,
absorptive and transformative capacities that needs to be ingrained or embedded in community
structures, institutions and social systems (Table 3.10) below.
Table 3.10: Resilience capacities matrix
Adaptive capacities Absorptive capacities Transformative capacities
• Human capital
• Diversity of
livelihoods
• Access to
information
• Asset ownership
• Social capital
• Access to
financial services
• Hazard insurance
• Social capital
• Ability to recover
from shock
• Access to informal
community safety nets
• Formal safety nets
• Social protection and
social capital
• Risk governance and
leadership
• Policy framework
promoting equal
access to basic
services, natural
resources, markets,
infrastructure and
agriculture services
Source: (UN, 2015)
A community that is resilient can take conscious steps to prevent, prepare and respond to the
negative impacts of the phenomena, when subjected to drought (Kivaira, 2007). Steps that have
been established and used in more than one way, include seed banks, irrigation schemes that are
solar powered on different scales, community social networks, support systems from traditional
leadership, using modern technology like conservation farming, zero tillage and drip irrigation
schemes.
10 countries were assisted by the UNDP to include gender equality in their Nationally Determined
Contributions (NDCs), which will assist them to reach the Paris Agreement goals. This
incorporation assists countries to address the inequalities that inhibit women from contributing
fully to climate-related policymaking, planning and implementation of climate change initiatives
that will improve the resilience of women. The supporters of UNDP are encouraged to intensify
the rate at which women are part of decision-making procedures on disaster risk reduction. This
consist of creating capacities for women’s organisation’s to take part in the formulation as well as
77
implementation of programmes, policies and strategies and creating capacities of significant
institutions to take part in gender perspectives. Women’s participation in important disaster risk
reduction programmes, contingency planning, early warning and long-term recovery programmes,
are essential in building community resilience against disaster (UNDP, 2009). Since 2014, the
model of climate change that is been led by women (WCRF) has repositioned women as farmers
but also knowledge conveyers, this will enable women to make informed decisions related to
which crops to grow and how much to sell (UN, 2015). This initiative seeks to promote resilience
and empower women as change makers in the agriculture sector.
3.8 DROUGHT MANAGEMENT STRATEGIES
Drought management is associated with good governance and institutional capacity. To develop
drought strategies, decision makers and leaders are required to shift from crisis to risk reduction
(Wisner, Blaikie, Cannon and Davis, 2004). It is essential for governments, NGOs and other
disaster management organisations to focus on mitigation, preparedness, prediction and prevention
and early warning. It is also essential to strengthen the coping capacity of a community (Wilhite,
2000; Wisner et al, 2004; Tadesse et al., 2009). Several countries have come up with drought
management strategies, assisting communities to reduce the impacts of drought and improve
people’s resilience.
USA has established a ten-step drought planning process; this has been used by other countries.
Below is the ten-step process (Sivakumar and Wilhite, 2004):
• Appointing a drought task force
• Stating the objective and the purpose of preparedness plan
• Obtain participation of stakeholders
• Inventory some resources and come up with group at risk
• Developing structures for the organisation and formulate a drought plan
• Identifying research needs as well as filling up the gaps in institutions
78
• Integrating science and policy
• Publishing the drought plan and develop awareness
• Teaching individuals about drought
• Evaluating and revising the preparedness plan for drought
The drought management plan for the USA is comprised of the following key components
• Risk and impact assessment
• Monitoring and early warning
• Mitigation and response
The USA has incorporated all the components of the disaster management cycle in their drought
management plan. (Sivakumar and Wilhite, 2004). Philippians has established a detailed disaster
management programme that was corroborated with the Total Disaster Risk Management
Approach (TDRM) (Van Zyl, 2006). This approach makes use of prevailing knowledge, risk
management, response and techniques on disaster reduction. The capability of achieving
sustainable development objectives is very important to disaster risk management as it
communicates valuable information at all stages. The disaster management cycle consists of
various issues in all the different stages and the TDRM Approach focuses on those challenges
comprehensively and proficiently (Van Zyl, 2006).
According to UNDP (1999), programmes for resilience building improve livelihoods, intensify
productivity and promotes economic empowerment for troubled communities. There is a need for
a comprehensive framework that comprises institutional and policy frameworks that strengthens
transformative processes and structures. When faced with extreme weather and climate change,
the government must take into consideration investing in developing groundbreaking
methodologies that develop the local economy (IPCC, 2007). Governments must also take note of
the livelihood’s generation and protection, and should understand food security, livestock
production nexus and crop production, especially for poor communities in Africa. UNDP (2009)
79
argue that the distinct contributor of vulnerability to climate change is poverty, hence, there should
be an investment in economic empowerment, and particularly in the emancipation of women. This
is likely to produce a solution that is sustainable to manage drought that is induced by climate
change (Basher, 2006).
Majority of rural households depend on agriculture as the only source of food and the occurrence
of drought in these communities affects the livelihood of the people (UNDP, 2005). The delay in
the implementation of interventions strategies negatively affects the community, as people will
end up depending on government assistance (Vogel et al., 2000). It is essential to constantly
monitor agricultural production and rainfall through the agricultural cycle, this will reduce the risk
of experiencing a major drought (Clay et al., 2003).
3.8.1 Drought forecasting and monitoring
Climate forecasts assist in the prediction of numerous properties of the future climate in an area
and it assists in lessening vulnerability and food insecurity through pro-active measures (Clay et
al., 2003 and O’Brien and Vogel, 2003). The predictions are generally in relation to likelihoods of
anomalies in climate variables for instance rainfall and temperature. The information that is given
in climate forecasts include the anticipated averages, the occurrence of extremes or the frequency
of event that are seasonal such as the beginning of the rains (Clay et al., 2003 and Reason et al.,
2005). Seasonal forecasts refer to the nature of a particular season and the seasonal rainfall
projections, normally refers to the anticipated rainfall anomalies. The anomalies consist of
irregularities that are found in the average conditions and from information regarding specific
events (Clay et al., 2003).
Drought is normally a slow-onset phenomenon and therefore it is possible to make some
predictions or early warnings (Jordaan, 2012). Even if there are some early warning or predictions,
people still suffer from the impacts of drought. The major goal of drought monitoring is to present
some information that that will be used to persuade governments, people and institutions to take
80
actions to reduce or prevent negative impacts of existing or forthcoming droughts (Sivakumar and
Wilhite, 2014). Early warning and monitoring systems that are associated to agriculture are
important for minimising vulnerability to drought. The extent of assistance that is needed to uphold
a sufficient production sector and the level of food security that is likely to be disturbed by drought
is also evaluated (Van Zyl, 2006). There is likelihood of the overlapping of two monitoring systems
in relation to economic issues and food security (Benson and Clay, 1998). The food security of an
area can be assessed better if there is combined information on rainfall, the agricultural sector and
the food situation gathered from monitoring the economic situation. The observations of
performance in the economy ought to incorporate information regarding rainfall (Benson and Clay,
1998). The rainfall variability usually activates the mechanism for disasters and must be
incorporated in all the monitoring systems.
When a community is affected by drought, it is important for that affected community to fully
understand and be aware of the early warning systems. They must be part of the early warning
information dissemination and the information should be clear. An effective early warning system
that is people centred must be clear to the vulnerable community so that they will be able to
understand the risk they are facing (Ncube, 2007). The disturbed community should understand
drought, trends, lead-times and the warning services must be real time and should be trusted by
the concerned society. Early warning information dissemination channels should be known and
significant in each context. Nevertheless, perceptions, traditional predictions and traditional beliefs
mechanisms should be incorporated in the modern science of early warning systems (Musarurwa
and Lunga, 2012).
Information about the climate has an important role in decreasing the extensive costs that are
related to climate variability and this can transpire in three ways. Firstly, the seasonal climatic
forecasting will create some improvements on decisions that foresee the magnitudes of extreme
events and therefore reducing costs. The reduction in the public supplies of maize is an example
of an aftermath that is likely to be anticipated (Clay et al., 2003). Secondly, the information ought
81
to be published as real time events unfold. The administration of responses can be developed by
making sure that farmers recognise weather changes and the growing conditions and available
government assistance when reacting to emergencies (Wilhite et al., 2000). The third way is
through investment choices for water-dependent systems, they must integrate an assessment
regarding the likelihood of climatic anomalies (Clay et al., 2003).
When launching drought early warning and drought monitoring systems, they are some challenges
that are likely to be faced especially in developing countries such as African countries. The World
Metrological Organisation (2006) highlighted the following challenges:
• There is insufficient coverage and data quality in several regions in Africa and this is due
to missing data or insufficient length of time series data and low station density.
• There is great cost for data sharing and data cost, this will result in limited data among the
research institutions and government agencies.
• The people who are supposed to make decisions, in most cases fail to understand the
technical language that is used in early warning bulletins.
• There is a lack of data that links several climates, water, and soil and socio-economic.
• Delivery and communication systems that are used to deliver information on drought and
the data to the user are not established and effective.
• The drought indices are at times unable to detect drought in the initial phases.
• There are no standard methods of risk and impact assessment and they fail to consider the
vulnerabilities that are important for regionally applicable response and mitigation
programmes.
3.8.2 Social networks
Social network is one of the essential strategy rural farmers can apply to deal with the effects of
any disaster especially drought (Bruschweiler and Gabathuler, 2006). These social networks are
formulated based on relationships, associations and other sources, these networks permit some
82
underprivileged people to access support regardless of low levels of interests (Wilkin, 2019). In a
study conducted in the rural parts of Ethiopia during the drought of 1998 to 2000, around 50
percent of the money borrowed was informal money, and at least 40 percent of the sharecropping
was among relatives (Little, Mogues, Stone, Castro and Negatu, 2006). In most cases material
support is likely to decrease during the drought periods. Poor people will have little to share, as
their resources are strained. Most of the poor farmers suffer during disasters however, they can
recover when they get support from relatives or any close links (Little et al., 2006: Wisner et al.,
2007). In some cases, social networks fail to provide a lasting solution for poor farmers who are
affected by disasters. The coping mechanisms that are based on social networks offer a minimal
solution to long term sustainable livelihood because there is a low obligation to commit to
constructive resources to manage droughts (Wilkin, 2019).
3.8.3 Drought knowledge management and drought awareness
The most essential enabling aspects in resilience building and drought risk management include
aspects such as education of the community members, drought awareness and knowledge
management (Wilhile, Sivakumar and Pulwarty, 2014). It is essential to be able to collect, compile
and disseminate the appropriate information and knowledge on drought hazard and vulnerabilities
the community is subjected to. The methods must be connected to community drought risk
management programmes, projects and awareness campaigns (Switzer and Verdlitz, 2017). There
must be an interaction amongst the generators and the people using the information, it is important
when developing targeted messages and making sure that there is facilitation of useful information
(UNISDR, 2014). In drought risk management, education is an interactive progression of
reciprocal learning between the people and the institutions, this also includes knowledge of the
local people and traditional wisdom (Wilhile et al., 2014).
There are several educational programmes that focus on drought risk management and
programmes on disaster management. UNISDR (2014) pointed out the following guiding
principles that can be used in knowledge drought management:
83
• Informed and motivated individuals minimise the effects of drought, people should be well
informed and must be motivated to develop drought prevention methods and strengthen
their resilience.
• Efficient information management and exchange demands establishment of a dialogue and
networks between the researchers, stakeholders and practitioners, to promote reliable
knowledge collection and dissemination.
• Extension services and public awareness programmes ought to be designed and executed
with a perfect understanding of the local perceptions and requirements, this will encourage
engagement with the media to promote a culture of community involvement in drought
resilience.
• Training and education are important for all the stakeholders to make sure that there are
effective efforts in drought risks reduction.
Even though drought risk management calls for an investment of human resources and financial
resources, the crisis management method normally leads to consumption of more resources and an
increase in the vulnerability of the community. Wilhite et al (2014) pointed out that educational
programmes that promote awareness regarding short-term and long-term water supply matters can
assist in understanding ways to react in a drought situation. Those educational programmes will
make sure that drought planning will not lose ground throughout the years where there is no
drought in an area. Information on drought is also achieved through indigenous knowledge and
innovation, education must be employed to develop a principle of safety and resilience. UNISDR
(2014) stated that networks from regional and sub-regional meant for knowledge management
need to develop traditional knowledge.
3.8.4 Government strategies in managing and mitigating droughts
When government makes decisions that are likely to affect the management of drought risk and
the impacts of drought, it must take account of ways that decrease vulnerability and food insecurity
(Wilhite et al., 2000). Governments should deal with the problems that are associated with drought
84
management from a perspective that is multi-objective (Knutson et al., 1998). Every single
government organisation involved requires a particular legislative obligation to administer and
implement (Wilhite et al., 2014). Several mandates are more likely to influence preparedness,
mitigation, recovery or response relating to drought. When a nation is faced with a disaster such
as a drought, the government may come up with a multi-objective perspective that might fail.
Valuable information from different governmental institutions and its responsibilities are then
crucial in implementing an effective drought plan (Knutson et al., 1998). There must be well-
organised communication amongst the government and NGOs, and it is important for both parties
to be involved in policy formulation.
Post-drought evaluation evaluates the responses from the government, NGOs and other institutions
involved in disaster management. Methods to implement recommendations for enhancing the
system should be established (Wilhite et al., 2000). Since institutional memory can fade, post-
drought assessments assist with information regarding past success and hindrances. The
evaluations must comprise of a combination of climate and environmental analysis of drought and
the socio-economic consequences (Knutson et al., 1998). When a community is resilient and has
effective coping mechanisms, the government and other organisations should develop some
lessons and try to use the same strategies in other areas.
The long-term strategies that can be used to reduce the impacts of drought and valuable responses
should be considered in economic structure, resource capability and the existing economic position
(Benson and Clay, 1998). A community that is resilient to drought is likely to be hunger-resilient
and similar social and physical contributing factors have a lot to do with drought resilience
(UNDP-BCPR, 2005). Crisis at national economic level of a nation is also affected by the impacts
of drought. However, the capacity to comprehend and cope with the risks of droughts diminishes
if mitigation programmes are implemented successfully (Wilhite et al., 2000).
85
3.9 DROUGHT STRATEGIES IN AFRICA
Most African countries have limited knowlegde of drought awareness and institutional capability
to develop. It is important to improve the capability of significant group of actors, such as policy
makers, resource managers and state authorities at distinct levels (Wilhite et al., 2014). It is also
essential to encourage public awareness of the impacts of drought and drought risk by improving
and executing training and advocacy programmes (UN, 2014). African countries can incorporate
a wide range of governmental and private insurance alongside with financial strategies in the
drought preparedness plans. This will assist in reducing the fundamental influences of drought
risk. The African Risk Capacity (ARC), a specific agency of the AU deals with weather insurance
mechanism which countries in Africa can utilise to strengthen resilience and recover from natural
disasters such as drought (ARC, 2016). The ARC instruments bring together present effective and
improved early warning models regarding drought in Africa.
Integrated strategies bring together agricultural technologies used for drought management such
as drought tolerant crops and variations, better-quality crop management systems, water
conservation techniques, enhanced climate forecasting and early warnings systems (Shiferaw et
al., 2014). African countries must put more emphasis on farming to increase food security and
promote sustainable transformation in the agricultural sector. The World Initiative on Sustainable
Pastoralism (WISP) Policy (2007) study, which was conducted in the Pastoralists in the Horn of
Africa, established that the Pastoralists offered flexible and adaptive livelihood strategies. WISP,
(2007), integrates a wide range of risk management strategies as well as resilience enhancement
procedures.
The South African Weather Service makes use of two techniques that help to minimise the impacts
of drought. Research on extended weather outlooks over a period of up to six months was
conducted (Vogel et al., 2000; Klopper and Bartman, 2003). Numerical modelling makes use of
predictions concerning the progression of the relations between the surface and the atmosphere
and this was used for smaller periods. Statistical modelling makes use of historical data to foresee
86
the climate for a longer period (Clay et al., 2003). The South African Weather Service circulates
information on the impending weather conditions to a wide section of residents instead of
commercial enterprises and the government (Monnik, 1998 and Vogel et al., 2000).
To ensure that African countries minimise the risk of and mitigate the level of drought impacts,
Crossman (2018) instigated the following approaches:
• Institutionalise gender sensitive drought risk assessments, instigate gender sensitive early
warning systems and make use of gender sensitive indicators to observe the gender
mainstreaming developments. Encourage gender participation and consideration of young
people in all issues that are drought related.
• Intensify partnership between African countries, regional organisations and international
organisations in drought risk management and application of plans.
• Establishment of a mutual drought management programme for all African nations, assist
in the negotiation of an obligatory drought and land deprivation protocol.
• Acquire an Africa-wide system as a fundamental fragment of the international network on
drought preparedness.
• Designing and developing an African drought information centre.
• Develop and make use of national, sub-regional and regional preparedness networks for
drought in capacity building, technology transfer, development, exchanging information
as well as best practices.
• Mobilise adequate, secure and timely financial and technical resources to address drought
issues at all levels.
3.10 DROUGHT MANAGEMENT STRATEGIES IN ZIMBABWE
Efficient disaster risk reduction strategy procedures require governance management procedures
throughout the entire disaster risk management continuum. Leadership is defined as the procedure
of motivating other people as well as institutions to achieve a defined goal (Hailey, 2006).
87
Therefore, disaster risk reduction leadership can be perceived as a progression whereby combined
and systems framework methodologies are implemented to mitigate or prevent the impacts of
hazards. Zimbabwe has put in place measures to reduce the impacts of disasters, these measures
were influenced by the disaster management continuum (Dube, 2015). There are systems that were
established at national level, these influence institutional decisions and policies to reduce the
impact of droughts. The government of Zimbabwe manages national institutions and organisations
to examine drought early warning systems. This will assist people to cope and respond resiliently
to disasters such as drought (Bongo, Chipangura, Sithole and Moyo, 2013).
Zimbabwe employs different ways to minimise the impact of drought and improve the resilience
of the farmers in the country. To improve livelihood communal farmers in Zimbabwe have
implemented additional lines of business to expand their income (FAO, 2018). Most of the rural
communities have resorted to making crafts and horticulture as ways of curbing the devastation of
droughts. Some of the farmers sell their vegetables in markets that are close to their communities.
Some of the communities have resorted to selling crafts in the nearby highways, this has become
a means of survival as most of their crops and animals are affected by drought (Masendeke &
Shoko, 2014). In previous years when the country was affected by drought, many individuals in
the rural areas resorted to harvesting and selling wild fruits such as the wild marula nuts (Chenje,
1994) in Masendeke and Shoko, 2014). Some farmers managed the impacts of the drought by
selling assets such as cattle during the peak of the drought and using the cash to buy food
(Mukeredzi, 2016). They start with selling small assets but as the drought intensifies, they sell
bigger possessions.
Besides selling assets, farmers in Zimbabwe make use of indigenous weather forecasting, this is a
traditional way of predicting weather (Risiro, Mashoko, Tshuma and Rurinda, 2012). This is a way
of assisting the farmers to get prepared for drought conditions. Some of the ways that the farmers
use to detect a forthcoming drought include studying the behaviour of bird’s and celestial bodies
to come up with proficient decisions regarding mitigating the harshness of effects of droughts
88
(Shoko and Shoko, 2013). Communities affected by drought can manage the drought situation by
receiving assistance from the government and other international organisations (Kuhudzayi and
Mattos, 2018). There are some programmes that were initiated by the government, these include
food for work project, supplementary feeding schemes, public works programmes and food aid
programme (Masendeke and Shoko, 2014). Receiving food aid is one of the common drought
mitigation strategies ever since the drought of 1991 and 1992 when several farmers received food
handouts during the drought because they were serious food shortages (Mushore et al., 2013).
As a way of managing drought in Zimbabwe, early warning systems are used. Svoboda (2009)
indicated the following importance of drought early warning system:
• It is essential in early drought detection
• It improves response
• It initiates actions contained by a drought plan
• It is an essential mitigation action
• It constitutes the foundation of a drought plan
Zimbabwe’s National Early Warning Unit (NEWU) operates under the Ministry of Agriculture
and Lands. The ministry provides information relating to drought monitoring and crop forecasting
for all agriculture subsectors (Brown, 2014). NEWU works together with the Drought Mitigation
Centre to determine the possibility of a drought occurrence. Madzamuswe, (2010), pointed out that
the Ministry of Environment, Water and Climate in Zimbabwe is responsible for monitoring
droughts in Zimbabwe. There are weather stations in all the ten provinces of Zimbabwe operated
by Agriculture Extension service (Agritex) with the guidance of the Metrological Office. The Early
Warning Information (EWI) is disseminated to numerous farmers’ organisations by NEWU, they
have the duty of distributing the information to the local communities. There are bulletins that
contain information on any weather matter, these are distributed to different government
departments, civil society organisations and the national newspapers (Brown, 2014). This is also
supported by literature, which notes that National Early Warning Unit (NEWU) has an obligation
89
to carry out risk analysis, interpretation of information, dissemination of disaster forewarnings,
and they offer some advance drought and food security information (Chagutah 2010; EMA 2010).
Besides government organisations in Zimbabwe, there are regional organisations that assist in
providing early warning to the country. One of the organisations is the Famine Early Warning
System Network (FEWSNET). It is a programme that was initiated by USAID, the programme
covers seventeen countries in the region of Sub-Saharan Africa. FEWSNET arranges a variety of
information products and services that are projected to strengthen the capabilities of countries and
regional organisations, the organisation also assist in providing an analytical early warning and
vulnerability status of a country (Shamano, 2010).
3.11 POLICIES AND LEGISLATIONS ON BUILDING RESILIENCE
Various policies, laws or legislation that promote resilience have been established at global and
national level. These policies will assist nations to combat the impacts of disasters and reduce the
level of risk among the people. The European Union implemented an action plan that will promote
resilience and reduce the level of risk. The European Union action plan for resilience in crisis
prone countries 2013-2020 advocates resilience of all nations within the union. The Commission
targets to create a systematic and universal approach to developing resilience in crisis and risk
prone situations, particularly by assisting people in danger to withstand, deal with, adapt and
recover quickly from shocks and stresses. The EU does not want to compromise the long-term
development projections, with a focus on effective interferences that have a long-term impact (EU,
2013).
The Sendai framework was established to complete the review and assessment of the completion
of the Hyogo Framework for Action 2005–2015. The framework aims to develop the resilience of
nations and communities to disasters (UN, 2015). In line with the precedence of the Sendai
Framework, the government of Zimbabwe has devoted itself to updating policy frameworks and
legislative in order to create a favourable environment for disaster risk reduction. The government
90
of Zimbabwe has established some policies that regulate the country on the issues of disasters. The
Civil Protection Act (Act 10:6 of 1989) controls the disaster management sector in Zimbabwe. The
act was established to curb the challenges disasters pose to the nation (Dube, 2015). The Civil
Protection Act of Zimbabwe stipulates that the government of Zimbabwe is mandated to assist
where possible to minimise the impacts of disasters (Betera, 2011). The Civil Protection Act (Act
10:06) 1989 is responsible for leading and coordinating all disaster management associated
activities in Zimbabwe (disaster risk reduction, preparedness, response and rehabilitation).
The Ministry of Local Government, Rural and Urban Development initiated the Civil Protection
Act of 1989. The Department of Civil Protection is responsible for carrying out the following
responsibilities according to Act 10:06 of 1989.
• Coordinating all responses to disasters and emergencies
• Work with a team that is multi-sectoral and command emergency government needs
assessment and response
• Offer technical recommendations to the president when it comes to the declaration of a
disaster
• Mobilising all the financial and human resources intended for disaster and emergency
response in the country
• Cooperate with some regional and international organisations on disaster management
issues, and
• Defend and promote the establishment of legislations and policies on disaster management.
The Civil Protection Act falls short of building national and community resilience to disasters.
Some of the key weaknesses of the Act include inactive community participation in DRR,
unavailability of dedicated and adequate resources to implement DRR programmes. It also
includes centralisation of power and resources, and the focus on ‘natural’ hazards rather than on
vulnerability and resilience. As such, there is need for its revision to align it with international best
practices in disaster legislations (Mavhura, 2016). The Act was later revised in 1992 and 2001, it
91
establishes a civil protection organisation (CPO) and provides for the operation of civil protection
services in times of disasters. The government of Zimbabwe, through the Civil Protection Unit,
had plans to introduce a new bill in 2015, however the plans failed, in 2019, the government re-
introduced a new bill on disaster management. The bill is set to restore the country’s disaster
preparedness and response in line with existing emergencies including climate change-induced
disasters (Nyamukondiwa, 2019).
As a way of preventing disasters and mitigating the impacts of disasters such as drought, the
government of Zimbabwe established some policies and legislation since the country obtained its
independence in 1980s up to date (CADRI, 2017). Various departments and government
authorities implement these policies. The following are some of the legislations and policies that
influence disaster management in Zimbabwe:
(i) Land apportionment Act of 1930 provided for 50.8 percent of fertile land to white farmers and
chased black people to unfertile African reserves, these are non-productive lands that constituted
30 percent of land, and the other 20 percent of land was distributed to State and company properties
(ii) Environmental Management Act (Chapter 20: 27) of 2002, Part IX of the act focuses on
environmental quality standards; it promotes the conduct of environmental impact assessments.
(iii) Public Health Act (Chapter 15:09) Part VI of the act, focuses on water related and food supply
issues.
(iv) Police Act (Chapter 11:10). The act directs the police on ways to deal with disasters so that
they can save lives.
(v) The Defence Act (Chapter 11:02) it outlines regulations on the ways to mobilise the defence
forces to deal with disasters.
(vi) Land Acquisition Act (2000). The act as a guide in the re-distribution of land (to obtain eleven
million hectares of land from the 16 million hectares available to large-scale commercial farms).
92
The policy states that women must represent 20 percent of all individuals assigned large-scale
farming land, identified as A2 farming land (GoZ, 2014). In addition, women were also permitted
to apply for agricultural land under the A1 village schemes. Regardless of all these modifications
in the policy, women’s access to land continued to be limited because of many factors.
(vii) Zimbabwe Agenda for Sustainable Socio-Economic Transformation (Zim-Asset) (2013-
2018) guides Zimbabwe to accomplish economic growth and reposition Zimbabwe to become one
of the strongest economies in Africa. The policy advocated for poverty alleviation and initiated
ways to reduce vulnerability of people (Government of Zimbabwe Archives
2015).
(viii) Zimbabwe Agriculture Investment Plan (ZAIP 2013-2017) is a sector investment plan for
implementing the Agricultural Policy Framework. It is also responsible for development in the
agricultural sector and medium-term plan.
(ix) Command Agriculture (2016). The government of Zimbabwe introduced the Special Maize
Import Substitution Programme to improve domestic production as well as reducing food imports.
The government contracted farmers (both the subsistence farmers and the new small-scale and the
capitalist farmers) with funding provisions using domestic capital. (Mazwi, 2019).
Despite the presence of the Civil Protection policies and associated legislations, Zimbabwe
remains affected by droughts that are always occurring, and the most vulnerable people are women
in agriculture.
3.12 SUMMARY
Drought is considered a slow onset disaster, and yet the impacts are so massive. Scholars reviewed
that women in farming are more vulnerable to drought than their male counter parts. Most parts of
the world have been experiencing drought and the droughts are attributed to climate change.
Evidence shows that the climate is changing, temperatures are rising, some areas are receiving a
93
lot of rain and in some parts, droughts are increasing (Taylor, 2012). Other scholars have indicated
that women are affected by drought since they comprise 70 percent of the poor people in the world
(Brown et al., 2012). Some of the challenges experienced by women were revealed in the literature.
Legislations that are governing the ownership and transfer rights of land do not favour women.
The literature shows various policies and legislation drawn to assist nations to reduce the level of
risk among the people and to build resilient communities. There is gap in the previous studies
because none of the reviewed literature used the structural equation model to build resilience of
women in farming to climate induced- drought. The resilience model shows the important
variables to observe in measuring resilience. However, none of the models used showed how the
variables interact to bring about the optimal structural integration in the development of resilience
to drought. Various studies have been conducted on the resilience of women to disasters globally;
however, there is a gap regarding the study of strengthening resilience of resettled women. The
next chapter will provide the methodology that was applied in this research.
94
CHAPTER 4: RESEARCH METHODOLOGY
4.1 INTRODUCTION
This chapter outlines the methodology used in the study. The first part covers the research
approach, this study used the mixed method approach which is a combination of quantitative and
qualitative method. The next section describes the research design that was applied, the convergent
parallel/triangulation design was used. The composition of the population from which sampled
respondents were selected as also discussed. It further discusses the data collection tools used in
the study. The chapter also explained how data obtained from quantitative method was analysed
by extracting themes and the quantitative data was analysed by exploring demographics using
PIVOT tables (MS excel), reliability test analysis (using SPSS V25 IBM) and the Cronbach’s
alpha coefficient method Ethical issues are also addressed.
4.2 RESEARCH APPROACH
This study is based on a mixed method approach; this is a combination of qualitative and
quantitative method. The mixed method was suitable for the study because it answered the
questions from several perspectives. It also ensured that there were no gaps to the data collected
and gave variation in data collection that led to greater validity (Tashakkori and Teddlie 2013).
Mixed method was a powerful tool in this study because of the combination of qualitative and
quantitative methods. The quantitative method gave a detailed description of resettled women
experiences. Qualitative research assisted in deepening the understanding of complicated social
and human aspects in ways that might not be understood with numbers (Strydom, 2011).
4.3 RESEARCH DESIGN
The study utilised one of the mixed method designs named convergence parallel design. In
convergence parallel design, qualitative data and quantitative data is collected, and the
interpretation is based on the results of qualitative and quantitative results (Heale and Forbes,
95
2013). Figure 4.1 below gives an illustration on how quantitative and qualitative was collected
concurrently (Creswell, 2013). Data was collected separately, and the results were merged during
the analysis stage. The main purpose of using this design was to illustrate the quantitative results
with the findings from qualitative results (Creswell and Clark, 2007). Both qualitative and
quantitative methods were given the same priority in addressing the research problem (Neal,
Hammer and Morgan, 2006).
Figure 4.1: Convergence parallel design
Source: (Creswell and Clark, 2015)
4.4 POPULATION AND SAMPLING TECHNIQUES
The geographical area of the research study was Mashonaland Central province. The area was
chosen because most of the people were resettled during the Fast Track Land Reform Programme
(FTLRP). The total population of the study area was 1 152 520 (ZIMSTATS, 2012). The target
population consisted of women who were involved in farming and they obtained their land through
the FTLRP. Resettled women, extension officers, other experts such as the agronomists and local
leaders from Mashonaland Central province were the target population. These groups of people
were chosen because they have experience and knowledge of the nature of the problem.
Quantitative Data
Collection and
Analysis
Qualitative Data
Collection and
Analysis
Qualitative
results
Quantitative
results
Merge results
for
Comparison
Interpret or
explain
Convergence or
Divergence
96
Given the mixed nature of the research, a multi sampling technique was used, this technique
encourages the researcher to make use of several methods. The first part of the sampling consisted
of purposively sampling resettled women in Mashonaland Central province. Purposive sampling
method entails that the research uses their judgement when selecting participates in the study
(Lavrakas, 2008). The major goal of purposive sampling is to focus on certain characteristics of
the people under study, therefore the study focused on women who acquired land through the
FTLRP (De Vos, Strydom, Fouché and Delport, 2011). A homogeneous sample was used, women
in farming who shared similar characteristics were investigated. Purposive sampling enabled the
researcher to extract a lot of information from the data that was collected.
Stratified random sampling involves the division of the population into lesser sub-groups known
as stratum. These strata are designed based on people’s shared attributes or characteristics (Singh,
Singh and Adewara 2013). The entire population was divided into homogeneous groups and
samples were selected randomly from each stratum. The advantage of using this method is that it
generates characteristics in the sample that are comparative to the general population (Sarndal,
Swensson and Wretman, 2003). A stratified sample offers a greater precision than a simple random
sample that has the same size (Singh, 2013). This assisted the researcher in saving money. The
strata used in the study was 260 resettled women farmers.
Random sampling was the last sampling method to be used and this method makes sampling more
data oriented. Random sampling was selected because this sampling technique eliminates bias,
everyone has an equal chance of being selected (Johnson, 2002). The formula below depicts how
final sample size was obtained.
𝒔𝒔 =𝒁𝟐∗(𝒑)∗(𝟏−𝒑)
𝒄𝟐
…………………………………...........................................4.1
Where:
97
Z = Z value (e.g. 1.645 for 90% confidence level)
p = percentage picking a choice, expressed as a decimal
(.5 used for sample size needed)
c = confidence interval, expressed as a decimal
(e.g., .05 = ±5),
SS= sample size
𝑠𝑠 =1.645∗1.645∗0.5∗0.5
0.05∗0.05
=0.6765
0.0025
SS= 271
Correction for finite population
𝒔𝒔 =𝒔𝒔
𝟏+𝒔𝒔−𝟏
𝐩𝐨𝐩
………………….............................................................................4.2
Applying the correction factor
𝑠𝑠 =271
1 +271 − 1
1 152 520
=271
1.000234269
=270
New and final sample size (SS) = 270 respondents in total.
98
Data was distributed as follows:
• 260 resettled women farmers.
• 4 extension officers.
• 3 local leaders.
• 3 agriculture experts.
4.5 DATA COLLECTION TECHNIQUES
To collect the necessary data, the study made use of secondary and primary data sources. Several
policies and sources of legislation, newspapers articles government documents and research
reports that are related to the study were used. A comprehensive literature study for the collection
of secondary data was used. The reviewed literature provided the basis of the research used to
build and comprehend more understanding of the outcome. The Rapid Rural Appraisal (RRA)
technique was used to obtain the relevant primary data through the inputs from the resettled
farmers, extension officers’ local leaders and other agriculture experts. The method does not need
to be exclusively rapid or rural, this is a cheaper way of attaining evidential data, particularly in an
agricultural environment (Leedy and Ormond, 2010). The RRA puts emphasis on the importance
and relevance of situational knowledge from the locals and focuses on attaining the correct general
information. RRA allows the researcher to make use of several techniques to obtain the necessary
data, this is another advantage of using the RRA technique.
The following techniques were used to collect data. A questionnaire survey was distributed and
conducted with resettled women in Zimbabwe in Mashonaland Central province. Secondly,
personal interviews were conducted with the local leaders of the area, agriculture experts and
extension officers. Thirdly, observations were carried out in provinces and lastly extensive
document review from public records and physical evidence.
99
4.5.1 Questionnaire
The researcher made use of structured questionnaires to collect data from women who are in
farming and were beneficiaries of the FTLRP in Mashonaland Central province. On the
questionnaire, the respondent, who is the unit of analysis, wrote down their answers in response to
questions (Brink, 2006). The questionnaires were hand delivered because the researcher deemed
it necessary to meet the respondents and address every challenge that may occur in completing the
questionnaires.
The questionnaire consisted of open-ended and closed ended questions formulated using the Likert
scale. Most of the questions were closed ended, this is to give the respondent an alternative
response, from which the subject will choose the answer that is closely in line with the appropriate
answer (Polit and Beck, 2004). To give the respondents freedom and a chance to elaborate, the
questionnaire comprised of a few open-ended questions.
4.5.2 Interviews
A semi-structured interview was formulated to collect information from the extension officers, the
local leaders and other agriculture experts in Mashonaland Central province. Interviews are used
to cover up the disadvantages of a questionnaire in that the respondents are given a chance to
explain in detail (Brink, 2006). Semi-structured interviews were the suitable method to use in this
study because it gave the researcher an opportunity to explore, define and obtain data. The
researcher can obtain useful information by taking note of the non-verbal expressions the
respondents will be making during an interview (Leedy and Ormod, 2010). Interviews assisted the
researcher to follow up, lead and thus obtain more data and clarity, this is essential when building
a rapport with respondents (Leedy and Omod, 2010).
100
4.5.3 Observations
The standard type of data collection in naturalistic or field research is observation of participants
or physical observation of the physical environment in the context of a natural scene. Observational
data collection was carried out to describe settings, activities, people, the physical environment.
Observations assisted the researcher to have a deeper understanding than questionnaires and
interviews, because they provided knowledge of the context in which events occur. It also
permitted the researcher to see things that participants were not aware (Creswell, Shope, Clark and
Green, 2006). The researcher formulated an observation guide that assisted the researcher on the
issues to be observed. During the data collection process, the researcher was taking notes on the
general overview of the situation with the resettled women farmers in Mashonaland Central
province.
4.5.4 Document review
Document review is a method of collecting data by reviewing existing documents, this includes
printed and electronic material (Bowen, 2009). The documents the research focused on were public
documents (official ongoing records) such as annual reports, strategic plans, and policy manuals;
personal documents (first person account of an individual action) such as newspapers, journals,
blogs and incident report. In document analysis, data is examined and interpreted to obtain
meaning, gain understanding and develop empirical knowledge (Corbin and Strauss, 2008). The
research made use of this method because it is a cost effective and an efficient method that is less
time consuming, available data is readily used.
4.5.5 Data collection procedure
The researcher obtained an ethical clearance letter from the University of the Free State and
obtained a permission letter to conduct research from the Mashonaland Central office of provincial
minister. The researcher and two research assistants started to collect data on the 6th of December
2019, and it took a month to collect the data. Three out of seven districts in Mashonaland Central
101
were randomly selected for data collection purposes. To determine the women who could
participate in the study, purposive sampling was used. The snowball sampling method was also
used because it was difficult to locate some of the farmers especially the A2 farmers. The
researcher managed to get referral from other women who were beneficiaries of the FTLRP. The
respondents who successfully completed the questionnaire were 267, the researcher managed to
get more 6 more respondents because the target sample for resettled farmers was 260. The actual
sample per district was Bindura 120, Shamwa 67, and Muzarambani 80 respondents. The
researcher and the research assistants assisted respondents who were not able to complete the
questionnaire. However, few respondents were not able to complete the whole questionnaire. The
researcher managed to visit the respondents in their homes, and some were in the field. For those
who were busy and could not answer the questionnaire, the researcher had to organise those
respondents to complete the questionnaire at a time convenient to them. The researcher managed
to conduct interviews with 5 of the resettled farmers who further elaborated about issues that they
were experiencing.
Face to face interviews were conducted with extension officers, agronomist, agriculture manager
and the local leaders. A random sampling method was used to select the participants who were
interviewed. The researcher intended to interview four extension officers but due to some work
commitments other extension officers was not interviewed. Three local leaders were able to share
their experiences, they also provided information on where the A1 and A2 farms were located and
they introduced the researcher to people in the area. The information obtained from three
agriculture experts provided extensive knowledge of the province and the subject matter. During
data collection, the researcher observed all the relevant information. The researcher was taking
down notes during visits to all the three districts and pictures were taken unfortunately the
researcher lost the phone were the photos were saved.
102
4.6 DATA ANALYSIS AND PRESENTATION
Qualitative data was organised from question to question, the researcher looked across all the
answers, and the answers were organised so that the researcher could identify consistencies and
differences. Quantitative data was analysed differently from qualitative data.
4.6.1 Qualitative data analysis
Thematic analysis was used in qualitative data analysis, this is a process where patterns or themes
are identified within qualitative data. Qualitative data was grouped together into themes and was
organised into coherent categories. Qualitative data analysis involved a 5-step process. The first
step involved preparing and organising the data, in this step the data was written in a book and the
recordings were listened to and the information was also written down. The second step involved
reviewing and exploring the data: this is when the data was read, several times, this was to have a
sense of what it contains. Notes about the ideas, thoughts or any question the researcher had was
kept as specified by (Mswazi and Nhamo, 2013). The third stage involves creating initial codes:
at this stage, the researcher used highlighters, sticky pads, notes in the margins, or anything else
that could help the researcher to connect the data. In the fourth stage, the researcher reviewed the
codes and combined them into themes: at this stage, the researcher identified recurring themes,
options, beliefs and language. The final stage of the analysis was the presentation of themes in a
cohesive style. The purpose of the study and the content should be included so that it relates the
story of the data presented (Nobel and Smith, 2013).
4.6.2 Quantitative data analysis
For quantitative data analysis, the exploration of demographics was carried out using Microsoft
Excel, pivot table to be specific. The advantage of using Microsoft Excel pivot table is the
researcher can compare the mean and other descriptive statistics and get the overview of the data
of the respondents (Rose, Sprinks and Canhoto, 2015). These pivot tables assisted in visually
comparing different groups of resettled farmers that participated in the study. Additional variables
103
were added to the pivot tables to create cross tabulation that assisted in further examining the
differences that exist within the resettled women farmers in Mashonaland Central.
A reliability test analysis was conducted using the SPSS V25 IBM version. For the statistics, the
researcher used the Cronbach’s Alpha coefficient. Gliem and Gliem (2003) described the
Cronbach’s alpha as a test reliability procedure, which involves just a single test provision to come
up with an estimate that is acceptable for the reliability for a specific test. Bryman and Cramer
(1997) went on to specify that the Cronbach’s alpha is the average value of a reliability number
that can be acquired for all the potential combinations of items if there are fragmented into two
half tests. The Cronbach’s alpha coefficient range from 0 to 1 and a reliable score is a higher score.
Nunnaly (1978) has specified that a score of 0.7 is an acceptable reliability coefficient. The
Cronbach’s alpha helped in determining the reliability of the data for resettled women under
investigation.
Descriptive statistics includes summarising and organising of data so that it can be understood
easily (Nakhede, 2018). It provides simplified summaries of a certain sample as well as the
measures. The advantage of using descriptive statistics is that it reduces large amount of data into
a summary that is simple and can be easily understood (Trochim, 2020). The researcher made use
of descriptive statistics to obtain the mode, mean and the standard deviation. Descriptive statistics
per latent variables were also used in the study, these unobserved variables (hazard and stress,
future uncertainty, livelihood, governance and resilience) were essential to the research.
Inferential statistics were used in the study. This technique makes use of probability techniques to
analyse the information about a population known to make improvements on the knowledge of the
population that is not known (Asadoorian and Kantarelis, 2005). Out of inferential statistics, the
researcher adopted the use of Confirmatory Factor Analysis (CFA). Gallagher and Brown (2003)
pointed out that CFA is a multivariate statistical technique that models the relationship between
manifest (observed) indicators and the fundamental latent variables (factors). This was useful
because the researcher was able to check if variables belonged to the factors/latent variables as
104
guided by the selected framework. The probability value or p-value was used to judge the fit of
variables/questions to their latent variables.
4.6.2.1 Vulnerability analysis
A vulnerability analysis was also conducted, it is essential to conduct a vulnerability analysis
because when building resilience, the vulnerability level must be determined first. Therefore, the
level of vulnerability of the resettled women farmers in Mashonaland Central was analysed. To
analyse the vulnerability level of the resettled women, the researcher used the Iyengar-Sudarshan
method. In 1982, Iyengar and Sudarshan established a technique that can be used to calculate the
composite vulnerability index from multivariate data in categorised regions (Kumar, Solmon and
Vishnu-Sankar, 2014) and (Hlalele, 2019).
There are two main methods the vulnerability index construction methods can be developed from,
these are methods that have equal weights and methods without equal weights (Bhattacharjee and
Wang, 2010). The method developed by Iyengar and Sudarshan contains some weights that are
not equal. Drought vulnerability indicators allow several units, and because of this reason, every
indicator’s values should be standardised according to the working relationship that every indicator
holds with vulnerability (Hlalele, 2019). To increase or decrease the functional connection with
vulnerability, normalisation was carried out by making use of the formulae (Hlalele, 2019)
respectively.
𝑿𝒊𝒋 = 𝑿𝒊𝒋−𝑴𝒊𝒏 (𝑿𝒊𝒋)
𝑴𝒂𝒙 (𝑿𝒊𝒋)−(𝑿𝒊𝒋) ……………………………………………………… 4.3
And
𝑿𝒊𝒋 =𝑴𝒂𝒙 (𝑿𝒊𝒋)−𝑿𝑰𝑱
𝑴𝒂𝒙 (𝑿𝒊𝒋)−𝑴𝒊𝒏 (𝑿𝒊𝒋)………………………………………………………………. 4.4
Where 𝑋𝑖𝑗 is the value of indicator j. Following the indicator value standardisation, the Iyengar
Sudarshan vulnerability index equation was presented as.
105
𝑽𝟏 = ∑ 𝒘𝒋𝑿𝒊𝒋𝒌𝒋−𝟏 …………………………………………………………………………4.5
Where w’s (0< w <1 an ∑ 𝑤𝑗 = 1𝑘𝑗−1 ) are the weights. The weights are anticipated to be different
inversely with the variance in different areas in the indicator on vulnerability. The weights are
hence presented as.
𝒘𝒋 =𝒄
√𝒗𝒂𝒓𝒊𝒂𝒏𝒄𝒆 (𝒙𝟏)………………………………………………………………………4.6
Where c, is the standardising constant, therefore.
𝒄 =𝟏
∑ .𝒋=𝒌𝒋−𝟏
𝟏
√𝒗𝒂𝒓𝒊𝒂𝒏𝒄𝒆 (𝑿𝒊𝒋)
…………………………………………………………………….4.7
𝒇(𝒁) =𝒛𝒂−𝟏(𝟏−𝒛)𝒃−𝟏
𝜷(𝒂𝒃) 0˂z˂1 and a, b ˃ 0…………………………………………………4.8
In this technique, appropriate probability distribution is desirable which takes the values in the [0,
1] range and that type of distribution is called Beta probability distribution this is normally skewed.
The density function of the function is shown as.
Where ꞵ(a , b) ) is a beta function expressed as.
ꞵ(𝐚 , 𝐛) = ꭍ 𝐚𝟏𝐱𝐚−𝟏(𝟏 − 𝒙)𝒃−𝒊 𝒅𝒙…………………………………………………….4.9
Given the skewness of the beta distribution, the next fractal intervals could be employed in the
vulnerability stage categorisation. Following the vulnerability index calculations for the resettled
women farmers’ as in equation (5), k-means grouping using the IBM Statistics SPSS V.24 was
useful in classifying the latent variables corresponding to their vulnerability indices. An index was
achieved for every group in order to match into the stages of vulnerability (Hlalele, 2019).
106
4.6.2.2 Structural equation modelling
The Structural Equation Modelling (SEM) was used to develop a framework for resilience. The
SEM is known as a statistical methodology, which uses hypothesis- testing approach on the
multivariate analysis (Brayne, 1994). SEM makes use of a confirmatory factor analysis to estimate
the latent constructs. The SEM consists of the structural model and the measurement model, a
measurement model gauges the composite variables or latent variables whereas the structural
model tests each of the hypothetical dependencies established by the path analysis (Kline, 2010;
Chen, Shirkey, John, Wu, and Shao, 2016). To avoid some errors when using SEM, there is a need
to examine the best fit indices that can be used. These include Model chi-square (χ2), Root mean
square error of approximation (RMSEA), Goodness-of-fit statistic (GFI) and the adjusted
goodness-of-fit statistic (AGFI) and Root mean square residual (RMR) and standardised root mean
square residual (SRMR) (Hooper, Coughlan and Mullen, 2008). SEM involves five logical steps:
model specification, identification, parameter estimation, model evaluation and model
modification (Kline 2010; Hoyle 2011; Byrne 2013; Chen at el, 2016). These five steps were
followed in the study and the drought resilient framework was developed.
Quantitative data was presented in the form of cross tabulation, tables, graphs and figures.
Qualitative data was presented in the findings discussions to represent the themes as suggested by
Sandelowski (2000).
4.7 ETHICAL CONSIDERATION
Ethical issues were taken into consideration by the researcher. Before the study was carried out,
the researcher obtained an ethical clearance letter from the University of the Free State, the ethic
clearance number is UFS-HSD2019/1299. The researcher managed to obtain a permission letter
to conduct research in Mashonaland Central province. Permission was granted from the office of
the provincial minister of Mashonaland Central (refer to Appendix D). All the rights of participates
were observed. All participants were given a choice of whether to participate or not and were given
107
a choice to withdraw from the research at any stage. The participants were informed of the nature
of the research before they participated in the study. The researcher had to make sure that the right
of privacy of the respondents was upheld. Confidentiality of participant’s information was
exercised, and all the records of the participants kept safe.
4.8 SUMMARY
This study utilised the mixed method approach, which is a combination of quantitative and
qualitative methods. The convergent parallel/triangulation design was used to carry out the study.
The population and the sampling techniques used were discussed. The multi sampling technique
was used. The study made use of the Rapid Rural Appraisal together with questionnaires,
interviews, observations and document review. The chapter explained how data collected from the
qualitative method was analysed through the extraction of themes. The quantitative method used
the exploration of demographics using PIVOT tables (MS excel), reliability test analysis (using
SPSS V25 IBM) and the Cronbach’s alpha coefficient, descriptive statistics per latent variable, to
collect and analyse the data. The researcher used inferential statistics, confirmatory factor analysis
to be specific, a vulnerability analysis, and the structural equation to develop a framework for
resilience. The chapter ends by explaining the ethical issues that were taken into consideration.
The next chapter focuses on data presentation, analysis and interpretation of the research findings.
108
CHAPTER 5: DATA PRESEANTANTION AND
ANALYSIS OF RESULTS
5.1 INTRODUCTION
This chapter presents the data obtained from the study and the analysis of the results. Qualitative
data was merged with quantitative data and was presented as stipulated by the convergence parallel
design. The major theme in qualitative data was presented in text form. The quantitative data was
presented in the form of cross tabulation, tables, graphs and figures. The first section dealt with
the demographics of resettled women farmers who participated in the study. The next section
focused on the presentation and analysis of the hazards and stress that affected women farmers,
the future uncertainties, the livelihood of these women, the role of governance and the resilience
of these women. A reliability test was conducted using the Cronbach’s Alpha. Then the
confirmatory factor analysis was carried out followed by the vulnerability analysis for the resettled
women. The chapter also focused on the model building for resilience using the structural equation.
The next step was to determine the parameter estimates, analysing the additional model fit indices
for the model of resilience and demonstrating the modifications for the indices. The last part of the
chapter focused on the building of the resilience model for women in farming.
5.2 DEMOGRAPHICS
The demographics of the resettled women farmers were a determining factor in assessing the
resilience of women to climate change drought induced disasters. Different aspects of the
demographics of women farmers in Mashonaland Central were discussed. This includes the age of
the respondents and their marital status, their household size and land ownership, level of
education and the age of the respondents and type of farming and the farming model.
109
Table 5.1: Age group vs marital status
Row Labels 18-29 30-39 40-49 50-59 60+ Grand Total
Divorced 0 2 3 0 0 5
Married 27 52 39 40 12 170
Separated 0 1 9 3 3 16
Single 5 6 12 7 1 31
Widowed 0 5 5 11 24 45
Grand Total 32 66 68 61 40 267
Source: (Survey, 2019)
Women of different age groups and different marital status respond differently to disastrous
situations. The respondents were asked about their age groups and their marital status. Table 5.1
above shows the relationship between age group of the respondents and their marital status. All
the respondents were above the age of 18, this is because in Zimbabwe an 18-year-old female is
considered an adult therefore at that age you can make decisions such as getting married (The
Zimbabwean, 2016). In the 18 to 29 age group categories, most (27) of the respondents indicated
that they were married and in this age group there were no respondents who are divorced, separated
and windowed. The respondents who indicated that they are between 30-39 were 66 in total and
most of the respondent being married people. The least number of divorced women respondents
were between the ages 40-49; however, most of the respondents in that age group are married.
Among the respondents that were between 50-59 years, there were 40 out of 61 respondents who
indicated that they were married. The highest number of respondents who were 60 years and above
was widowed and there were no respondents who indicated that they were divorced. The age group
that had the highest number of respondents were married women between the ages of 30-39. This
is because this is a productive age group and most of these women assist their husbands to farms.
The least number of respondents were 18 to 29 possibly because most young women are not into
farming and prefer to be employed in the cities.
The results indicate that most women in A1 and A2 farms in Mashonaland Central are between
the ages of 30 to 59. This age range is made up of middle-aged women who have families to feed
and agriculture is also their source of income. The total number of women who are married was
110
170 and if we combine the number of women who were single, widowed, separated and divorced
it will give a total of 97. This is an indication that most of the respondents are farming together
with their husbands and 36.3 percent of the respondents are independent women farmers. The
resilience of married women between the ages of 30 to 59 is more likely to be greater than female
headed household. Married women are likely to depend on their husband when it comes to ideas
and other farming inputs.
Table 5.2: Household size vs marital status
Household
size
Divorced Married Separated Single Widowed Grand
Total
<2 2 4 0 1 3 10
2 to 5 2 62 0 12 12 100
5 to 9 1 75 4 12 22 114
9 to 12 0 18 0 2 2 22
>12 0 11 0 4 6 21
Grand Total 5 170 16 31 45 267
Source: (Survey, 2019)
It is essential to know the household size and the marital status of the respondents to determine the
resilience of women in farming. Table 5.2 above shows the household size and the marital status
of the respondents. The total number of respondents who have a household size of less than 2 is
very small. This is an indication that most of the respondents do not have small families. None of
the respondents that are separated indicated that they have a household size of 2 to 5 and married
women recorded the largest number for a household size of 2 to 5. Most of the married respondents
(75) had a bigger family with a household size of 5 to 9. This is common for people who practise
farming especially small-scale farmers. Most small-scale farmers prefer to have large families and
one of the reasons is for labour purpose (FAO and UNICEF, 2019). Almost 42.7 percent of the
respondents have a household size of 5 to 9, this shows that most of the families have a bigger
household size. None of the respondents who are divorced have a household size 9 to 12 and more
than 12 and only married people have the highest number of household size of 9 to 12 and more
than 12.
111
Table 5.3: Marital status vs land ownership
Marital Status Land Ownership
Yes No Grand Total
Divorced 3 2 5
Married 158 12 170
Separated 16 0 16
Single 25 6 31
Widowed 39 6 45
Grand Total 241 26 267
Source: (Survey, 2019)
The respondents were asked if they own the land and if they practised farming. Table 5.3 above
shows the marital status and land ownership of the respondents. Out of the 5 divorced respondents,
only 2 respondents indicated that they do not own land and 3 divorced respondents owned land.
For married respondents, only 12 respondents indicated that they do not own land and 59 percent
(158) respondents said they own land. There are so many married women who own land because
most of them share land title deeds with their husband. Most of the women who are married under
chapter 37, have the legal right to own property together with the husband (what belongs to the
husbands belongs to the wives). All the 16 respondents that are separated indicated that they own
land. Some of the separated women acquired the farms on their own since they had children to
feed. The total number of respondents who are single was 31 and only 6 respondents indicated that
they do not own land. More than three quarters (25 out of 31) of the single respondents own the
farms. Table 5.3 above also reviews that the number of widowed respondents who own farms were
39 and only 6 out of 45 widowed respondents do not own the land they are farming. The total
number of women who own land is 241, this is a large number considering that women were once
disadvantaged, they were not able to own a piece of land, especially a farm. These results show
that women have legal rights to farms although most of the women are married and sharing title
deeds with their husbands.
112
Table 5.4: Land acquisition method vs education levels
Land acquisition
method
Education Level
No
schooling
Primary
school
‘O’ level ‘A’ level Diploma Degree Grand
Total
From government 32 64 107 10 10 2 225
Land grabbing 10 2 8 1 0 0 21
Other 0 5 6 1 3 2 17
Purchased land 0 1 3 0 0 0 4
Grand Total 42 72 124 12 13 4 267
Source: (Survey, 2019)
Women across Zimbabwe managed to obtain land through various mechanisms. Women farmers
in Mashonaland Central province who obtained land during the FTLRP indicated how they
obtained their farms. Table 5.4 above illustrates how the women managed to acquire the farms and
their level of education. The majority (107) of women with ‘O’ level managed to obtain land from
the government. Women with ‘O’ level have basic education therefore it is important because these
women are more likely to understand basic farming requirements. However, the number of women
with no schooling and primary school level is slightly higher. It is an advantage for these women
to obtain land from the government because they are not qualified for any other formal
employment. But having many women with no schooling or limited education will impact on the
resilience of women because they might not understand and practise good farming methods.
Only 2 respondents who obtained land from the government indicated that they have a degree and
10 respondents who obtained land from the government have a diploma. This is an indication that
very few women with a higher level of education obtained land from the government. The highest
number of women with no schooling indicated that they were involved in the land grabbing. They
managed to grab land from former commercial farmers. None of the highly educated women with
diplomas and degrees were involved in land grabbing. The total number of women respondents
who obtained land from other means was 17 in total. Most of these women indicated that they
managed to get the land from close family members and some from close friends. The least number
of respondents (4) indicated that they purchased the land. This number is very low because the
government of Zimbabwe was not selling the land, however the people who purchased land
113
specified that they bought the land from other people who obtained land from the government and
from land grabs.
Table 5.5: Age group vs education level
Age
Group
Education Level
No schooling Primary
school
‘O' Level ‘A’ Level Diploma Degree Grand
Total
18-29 2 10 19 0 1 0 32
30-39 7 8 37 7 5 2 66
40-49 7 16 35 4 4 2 68
50-59 11 22 26 0 2 0 61
60+ 15 16 7 1 1 0 40
Grand
Total
42 72 124 12 13 4 267
Source: (Survey, 2019)
The level of education and the age of the people can be an indication of the lifestyle of the
community. Table 5.5 above shows the age group of the respondents and their level of education.
The highest numbers of respondents (19) with O level were among the age group of 18 to 29.
Respondents in this age group had the highest number of farms because the government of
Zimbabwe encourages everyone to acquire at least O level. Among the women who were between
the age of 30 to 39, 37 respondents indicated that they had O level and 7 respondents did not
receive any form of formal education. The number of women with post school qualification is 7
and this is a low figure. The numbers of women who are in the age group of 50 to 59 with primary
level education are 22. This is the highest number among people with primary education. The
reason could be in the past women among that age group were not encouraged to go to school
rather they were encouraged to do household chores and practise farming. Most of the older women
(from 50 to 60 plus) could not attend school or they only reached primary level because women
were regarded as less important than men. Parents chose to take a male child to school rather than
educating a female child who would later get married.
114
Table 5.6: Type of farming vs farming model
Type of farming Farming Model
A1 A2 Grand Total
Arable farming 62 11 73
Mixed farming 148 20 168
Pastoral farming 23 3 26
Grand Total 233 34 267
Source: (Survey, 2019)
Women in different faming models practised different farming types, some women practised
arable farming, and some practised pastoral farming while others practised mixed farming. Table
5.6 above illustrates different farming models and different types of farming. The respondents
consisted of women who obtained land through the FTLRP and these women were settled in A1
(small scale farms) and A2 (large farms). The total number of women who are practising arable
farming is 73 and much of the A1 farmers (62) indicated that they practised arable farming.
However only (11) A2 farmers indicated they practised arable farming. The main crops that are
produced are maize, tobacco, soya beans and some of the farmers practiced market gardening.
These crops are suitable for Mashonaland Central province. The number of A1 farmers who
practised mixed farming is very high (148). The reasons for having such a higher number is most
farmers plant crops but also kept animals for selling purposes and some A1 farmers used the
animals such as cattle for ploughing. Most of the A1 and A2 farmers kept cattle, goats, sheep,
chicken and pigs. At least 63 percent (168) of the respondents practised mixed farming, this is an
indication that mixed farming is the most common farming method in Mashonaland Central. Only
(3) A2 farmers indicated that they practiced pastoral farming. A2 farmers have large plots of land
and the soil and the water content in Mashonaland Central province makes farmers to focus more
on planting crops rather than pastoring animals.
115
Table 5.7: Household position vs land ownership
Household position Land Ownership
Yes No Grand Total
Sole breadwinner 76 10 86
Wife 156 12 168
Grandmother 8 1 9
Relative 1 3 4
Grand Total 241 26 267
Source: (Survey, 2019)
Women involved in farming have different family positions and their position and land ownership
status can influence their farming activities and their resilience to drought as well. Table 5.6 above
illustrates the household position and land ownership of the respondents. The number of women
farmers who were sole breadwinners and owned a farm were greater than those breadwinners who
did not own a farm. Although the number of respondents who owned a farm (76) is not much, it is
an indication that the government is changing some past beliefs that a woman cannot own land.
Independent women can farm in their own farms and take care of their families just like their male
counterparts. Most of the respondents (156) indicated that there are wives and they own the farms.
This shows that there are married women who are practising farming together with their husbands
and those women have an equal share of the land as the husbands. The number of grandmothers
that indicated they own the land is 8 and it is much greater than those who do not own the land (1).
Out of the 4 respondents who indicated that they are relatives, 3 of the respondents said they do
not own the farm. These relatives are either leasing or were given a piece of land to farm by their
relatives who are the owners of the farm.
The demographic profile of the resettled women farmers has revealed how the women farmers
acquired land and how their educational background, age and marital status has influenced their
productivity in farming. The next section deals with the hazards and stress that is affecting the
resettled women.
116
5.3 HAZARDS AND STRESSES AFFECTING RESETTLED WOMEN
Women in farming are likely to face many challenges as compared to their male counterparts.
They are more vulnerable because they have been disadvantaged in the past. Women were not able
to own land and they could not make decisions without consulting a man. Resettled women farmers
in Mashonaland Central are also affected by the impacts of drought. These women were asked
about their experiences with drought and what they have lost due to drought.
To address the first objective of the study: To assess vulnerability and impacts of climate change
induced drought on resettled women. Participants were asked questions that were related to
drought hazard and the stresses that they encounter when they are exposed to that drought hazard.
Descriptive statistics was used to determine the vulnerability and effects of drought experienced
by resettled women.
117
Table 5.8: Hazards and stresses affecting resettled women
Knowledge of
climate change/
drought impacts
Loss of
livestock
Loss of crops Awareness of
drought
preparedness
strategies
Personal
drought
management
plan
Drought early
warning
systems
Involvement in
drought risk
reduction
Valid 267 267 267 267 267 267 267
Missing 0 0 0 0 0 0 0
Median 2.000 2.000 1.000 2.000 2.000 2.000 2.000
Mode 2.000 2.000 1.000 2.000 2.000 2.000 2.000
Standard
Deviation
0.487 0.499 0.307 0.439 0.361 0.474 0.378
Shapiro-Wilk 0.637 0.643 0.351 0.545 0.431 0.597 0.457
P-value of Shapiro-
Wilk
<.001 <.001 <.001 <.001 <.001 <.001 <.001
Minimum 1.000 1.000 1.000 1.000 1.000 1.000 1.000
Maximum 3.000 3.000 5.000 2.000 2.000 2.000 2.000
Source: (Survey, 2019)
118
The respondents were asked if they have knowledge of climate change and drought impacts.
According to Table 5.8, the mode is 2.000, this is an indication that most of the respondents did
not have knowledge of climate change and drought impacts. Lack of awareness among the
communities could be one the reasons the people did not know the impacts of droughts. The
resettled farmers were not be aware of how climate change and drought could affect their lives.
Another reason could be due to a low level of education among some respondents. Some of the
respondents did not attend school and some went as far as primary school, so it is difficult for them
to understand the impacts of climate change. The lack of knowledge of climate change and drought
poses a serious threat to these women farmers. The resettled women should be aware of the dangers
they are likely to face in order to deal with the dangers posed by the climate and drought. A few
respondents had knowledge of the impacts of climate change. These are probably women who
have acquired basic education or heard about the impacts from other people or attended workshops
on climate change. Those respondents who indicated that they knew the impacts seemed to be very
informed of the dangers of climate change and drought impacts.
The respondents were asked if there had lost any livestock because of drought. From the data
presented on Table 5.8, most of the respondents did not lose their livestock due to drought. The
reasons for having few respondents lost livestock could be there are few resettled women who
indicated that they were practising pastoral farming. This number influenced the response of the
number of people who lost livestock. However, the farmers that indicated that they lost their
livestock during drought also indicated that they lost the livestock through selling. The results are
in line with the findings documented by Tau (2015). The researcher indicated that selling livestock
during drought is a common practice, some farmers sell their livestock to buy food. There were,
however, a small number of women farmers who indicated that their livestock died as a result of
drought. From the observations conducted during the study, most of the resettled women prefer to
keep cattle, goats and indigenous chicken. Women farmers who lost their livestock because of
death indicated that they were devastated because they lost their source of income and draught
power.
119
In many cases, when an area experiences drought, crops are more likely to be affected. In the study,
the respondents were asked if they have experienced loss of crops because of drought. The majority
of the respondents said they have lost their crops due to drought. Most of the respondents were
arable farmers and mixed farmers. These farmers were greatly impacted by drought because they
survive on agriculture. Loss of crops means they had to struggle to feed their families due to lost
income since most of the farmers sell their crops. From the observations conducted, most farmers
in the province were growing maize, tobacco, soya beans and some were involved in market
gardening. Loss of crops has a serious impact on the province and the country as well. In the
absence of drought, Mashonaland Central province is one of the top provinces that produce a lot
of crops. Loss of crops has a negative impact on the food security of the country and the economy
since Zimbabwe is an agriculture-based economy.
The agriculture experts and local leaders were asked to outline the challenges that women farmers
face because of drought. The following were common responses:
• There is inadequate food in the province, women farmers are losing their crops and livestock,
so women are finding it difficult to feed their families.
• In worst cases some women are resorting to immoral activities such as prostitution, just to
find a way to survive.
Women farmers find it difficult to survive during drought as they do not have the resources to
farm. One of the experts interviewed indicated that some women farmers are selling their livestock
to compensate for the lack of income due to bad harvests. The expert went on to say that if the
drought worsens, there is a danger of these women farmers ending up in debt and some of the
women are likely to give up farming. There is need to strengthen the resilience of these women
farmers to minimise the impacts of drought.
Women farmers that participated in the study were asked if there were aware of any drought
preparedness strategies. The response from Table 5.8 above shows that the mode was 2.000, this
indicated that the majority of the women farmers were not aware of drought preparedness
120
strategies. Not knowing drought preparedness strategies means these women do not have
mechanisms or strategies to implement in an event of a drought. The resilience of the farmers
towards drought is likely to be weakened if they fail to prepare for a drought disaster. The possible
reason why most of the respondents were not aware of the drought preparedness strategies was
lack of knowledge. Women farmers are at great risk, failing to prepare for a drought event makes
them more vulnerable to drought. Few respondents indicated that they were aware of drought
preparedness strategies. These were women who had experience in farming and some of them
indicated that they were informed by experts and some said it was through indigenous knowledge.
Being aware of the preparedness strategies of any disaster or event would assist women farmers to
put in place some measures to deal with disasters.
A drought management plan is used to inform farmers on the measures that can be taken to
minimise the risk associated with drought impacts. Women farmers who participated in the study
were asked if they had a personal drought management plan. Table 5.8 above shows that the
majority of the respondents did not have a drought management plan. These were women farmers
who had little knowledge on how to plan for a drought event. One of the respondents further
explained that she did not have a personal drought plan because she did not know how to plan for
drought. The respondent went on to say, she would like experts in agriculture to teach the farmers
on how they can make a personal drought plan. Women farmers are more at risk of drought if they
fail to plan for a drought disaster. They will not have the capacity to deal with the impacts of
drought and are likely to lose most of their crops and livestock. Nevertheless, a few women farmers
indicated that they had a drought management plan. These women were adequately informed about
the impacts of drought and had learnt from past experiences how to curb the impacts of drought.
Most of the women who indicated that they have drought management plan stated that their plans
were informal, they were not written. The women with drought management plans were asked to
briefly describe their plans and these were some of the responses:
• I stock the yields from the previous season, so if there is a drought in the next season, I
will be able to have food for my family.
121
• If there is a drought, I plant short seasoned crops and drought resistant crops.
Those women farmers who had a drought management plan were less likely to suffer the impacts
of drought because they had guidelines to follow.
The presence of effective early warning systems will assist the farmers with information about a
forthcoming drought so that they would be able to prepare for a drought event. The respondents
were asked if there were aware of any early warning system. Table 5.8 above reveals how the
respondents felt. The majority of the respondents said that they were not aware of any drought
early warning system. The reason why most of the respondents did not know some early warning
systems is probably because they were not informed. However, there were a small number of
respondents who had knowledge of drought early warning systems. These respondents pointed out
that they made use of indigenous knowledge. An elderly woman said that “I know that there is a
drought approaching when there are a lot of wild fruits, this is how we were able to predict drought
in the past and I am still using this method” This method was the most common method used
throughout the province and the respondents believed it works. A few of the respondents said they
got to know about the predications of drought through the weather forecast. They were able to tune
in to the radio stations and television and find out about an approaching drought.
Local leaders that were interviewed stated that community members did not know the early
warning systems because the systems were too technical and advanced for the women farmer to
understand. The leaders also emphasised that it is difficult to predict the occurrence of drought
because drought is a slow onset event. It is difficult to see when it is approaching and when it ends.
Experts were interviewed and asked if there were early warning systems in the province and they
said “there are no early warning systems in place in most areas. The province relies on the
metrological department and weather information is sent from the nearest stations. Small towns
such as Centenary and Shamva do not weather stations so they rely on bigger towns with weather
stations such as the one in Mvurwi and Bindura” The agriculture experts were also asked what
could be done to improve the early warning systems in the country. One of the experts said, “The
122
government and other relevant organisations should develop advanced technologies for
monitoring and early warning systems.” The country is facing an economic crisis therefore it is
difficult for the country to be well advanced in early warning technologies that give accurate
weather information.
Women farmers who participated in the study were asked if there are involved in the processes of
drought risk reduction. The responses on Table 5.8 shows that majority of the women were not
involved in drought risk reduction activities. The answers by most of the respondents show that
women are at great risk of drought because they were not taking the responsibility of mitigating
and preparing for drought. The responses show that the women farmers were not taking
responsibility for minimising the impacts of drought, they rely more on government and other
organisations to assist them. It is essential for these women farmers to work together with the
government, NGOs and the community leaders to reduce the impact of drought. Women farmers
should be involved in planning and participating more often in the processes of drought risk
reduction.
5.3.1 Impact of drought on water sources
The lack or reduction of rain in an area has a great impact on the water sources. Water bodies in
different areas react differently in the event of drought. Wetlands are likely to experience less
effects unlike dry areas. The level of water in the water bodies can greatly affect the people in that
area especially when there is a drought. Water that can be used for drinking, cooking, bathing,
irrigating and feeding the animals is stored in these water bodies. Water sources that were
identified in Mashonaland Central include boreholes, wells, rivers and ponds.
123
Figure 5.1: Boreholes affected by drought
Source: (Survey, 2019)
Boreholes are essential when it comes to storage of ground water. Borehole water is considered as
one of the safest water sources. Figure 5.1 above shows that there was a significant difference
between the respondents who indicated that drought is affecting borehole water and those who
said their borehole water is not affected by drought. Only 39 respondents indicated that drought is
not affecting their boreholes. From the observation, these women were staying in areas that are
much wetter than the rest of the province. The majority of the respondents indicated that drought
had affected the level of water in their boreholes. Since borehole water is considered safe for
drinking in rural areas where water purification is hardly practised, it is risky for people’s health
if borehole water is not available. People are likely to resort to unsafe water sources thus the risk
of experiencing waterborne diseases such as diarrhoea, typhoid and cholera is very high.
228
39
Affected
Not affected
124
Figure 5.2: Wells affected by drought
Source: (Survey, 2019)
Most of the households in farms and rural areas have wells. Water from wells is used for various
domestic uses such as drinking and cooking although it is not safe for those purposes. The
persistence of drought in an area can result in a negative impact of wells. Figure 5.2 above shows
how drought had affected the wells in the province. More than 90 percent (246) respondents
indicated that drought had affected their wells. The researcher conducted some observations in the
areas of Muzarabani district, Bindura district, Shamva district and it was observed that the water
levels in the wells were very low and some of the wells were totally dry. The few cases of
respondents that indicated that their wells were not affected by drought are farmers who are in
areas that had a higher water table.
Table 5.9: Effects of drought on water sources
Water source Affected Not affected
Rivers 235 32
Ponds 250 16
Source: (Survey, 2019)
246
21
0
50
100
150
200
250
300
Affected Not affected
Total
Affected
Not affected
125
Rivers that were identified in the study were Mazoe river, Ruya river, Pote river and Nyaure river.
Women farmers in Mashonaland Central use water from these rivers for irrigation purposes,
feeding animals and domestic purposes. Women farmers who stated that the rivers were affected
by drought were 235 and only 32 women believed that the rivers were not affected by drought.
The observations conducted show that the rivers were affected by drought although the degree was
different. During the time of study, the level of water in all the rivers was lower than the normal
capacity. The province is known of receiving high to moderate rainfall but the drought of 2018
and 2019 affected the province. Therefore, water sources such as rivers contained little water or in
extreme cases, the rivers dried up completely.
The existence of natural and manmade ponds in Mashonaland Central province is a great advantage
since ponds can store large quantities of water that can be used in dry periods. The majority (250)
of women farmers indicated that ponds were affected by drought (Table 5.9), and only 16
respondents indicated that ponds were not affected by drought. Ponds in the area assist the farmers
with water for irrigation and drinking water for livestock. The drying up of ponds pose a serious
problem for women farmers since they rely on water from these ponds. In some regions, water
bodies have been seriously affected by drought. The 1882 drought also affected Botswana, water
bodies completely dried up and many animals were lost, nearly half of the total population relied
on emergency food supplies from developed countries (ActionAid, 2008). This is an indication
that drought has a negative impact on the water bodies, the community and the livestock.
5.3.2 Losses that occurred because of drought
The occurrence of drought in an area can lead to several losses. Emerging women farmers are
largely affected by drought because they lack some resources and experience that other farmers
possess. Women farmers in Mashonaland Central have recorded financial loss because of drought.
Drought directly and indirectly affects women farmers. The losses that these women farmers have
recorded ranges from crop failure, loss of animals, lack of crop insurance and lack of labour.
126
Figure 5.3: Losses as a result of drought
Source: (Survey, 2019)
Women farmers who participated in the study were asked to indicate the reason behind their
financial losses due to drought (Figure 5.2). The majority (30 percent) of the women farmers said
that they encountered some financial losses when their crops failed because of drought. The
farmers were hoping to sell their crops after harvest but when drought occurred, these women
farmers were left with few and some did not have any crop to sell. Twenty-three (23) percent of
the women farmers indicated that they experienced some financial losses because they had lost
their livestock. These women recorded some financial losses because some of their livestock died
and they sold the remaining livestock for a very low amount.
Nineteen (19) percent of the respondents indicated that they experienced some financial losses
because they did not have insurance. This insurance would assist farmers against weather related
challenges such as drought. Most of the women farmers do not insure their crops, so in the event
of a drought, farmers without crop insurance will not get any compensation. It has been observed
that most of the small-scale farmers such as the A1 farmers do not have insurance. Some of the
women farmers attributed their loss of finances due to inadequate relief funds. There were 20% of
30%
23%19%
20%8%
Crop failure Loss of animals
Loss of crop due to lack of insurance Inadequate relief funds
Lack of labour
127
the respondents who made financial losses due to inadequate relief funds. These women
emphasised that they made financial losses because they did not get enough seeds and fertilisers
from the government. Some of the women further explained that if they had enough relief funds,
they would have planted more crops and if there was also enough fertiliser from the government
and other organisations, they would have produced more crops. Few respondents recorded some
financial losses because they did not have enough labour. Very few women farmers related their
financial losses to labour because most the farmers especially the A1 farmers indicated that they
do not need extra labour. They can plant and harvest their crops as a family and only a few
indicated that they would need to hire few people to assist them. Most of the respondents that
indicated that they recorded losses because of labour were A2 farmers. Labour is normally needed
in A2 farms because the farms are bigger in size.
5.4 ADDRESSING FUTURE UNCERTANITIES OF RESETTLED FARMERS
Uncertainties are caused by long term trends such as climate change. To address those uncertainties
there must be some form of adaptive measures that are put in place. Adaptive capacities assist in
managing the livelihood of the community. There is need to improve and understand drought and
its impacts so that adaptive measures are identified. Women famers applied different adaptive
strategies to deal with the effects of drought. Brody et al. (2008) pointed out that in order to assist
in building resilience in women, there must be adaptive programmes which consider gender
differences in the extent of exposure to climate change, the extent of vulnerability, as well as the
capacity to adapt. The adaptive measures applied by the resettled women farmers helped in the
resilience building of the community. To address future uncertainties the researcher examined
issues such as the adaptive strategies applied by the women farmers, awareness programmes that
are in place and how the women farmers’ access information related to drought.
128
5.4.1 Adaptive strategies applied by women farmers
To address the objective regarding determining strategies applied by the government and different
organisations to minimise the level of impacts, the strategies that women farmers used will be
assessed. It is very important for a community to apply some strategies, which can assist them in
adapting to the dangers that they are exposed to. Women farmers in Mashonaland Central province
applied different adaptive strategies such as crop diversity, crop rotation, improving irrigation
systems and buying insurance.
Figure 5.4: The adaptive strategies that were applied
Source: (Survey, 2019)
The study suggested that 36 percent women farmers diversify crops as an adaptive strategy.
Women farmers in Mashonaland Central applied this strategy as it gave them a variety of choices,
they could increase production by focusing on various crops. The agriculture experts emphasised
that the method is essential because it helps the women farmers with nutrient security, and it plays
a crucial role in poverty alleviation. The observations showed that the women farmers were having
different crops such as maize, soya beans, vegetables and sorghum on a single farm. If the women
36%
56%
2%
6%
Diversity of crops Crop rotation Improving irrigation systems Buy insurance
129
farmers have diverse crops, they are likely to encounter fewer impacts in the event of drought. The
agriculture experts went on to say the diversifying crops such as vegetables, maize and sorghum
are an advantage because if there is a drought in the area, drought resistance crops such as
sorghum will survive the drought therefore a farmer will remain with some crops instead of losing
all the crops.
The majority of the respondents (56 percent) indicated that they apply crop rotation methods as an
adaptive strategy. Crop rotation method is an effective method used by these women farmers; this
method increases the soil fertility, the soil organic matter will increase due to micro-organism that
are left behind by each of the plants that are planted in that specific area (Thierfelder, Cheesman
and Rusinamhodzi, 2012). The other advantages of using this method is it increases the crop yields,
it reduces soil erosion, it also limits the concentration of diseases and pests, improve the structure
of the soil and it also diminishes the stress weeds (Thierfelder, Cheesman and Rusinamhodzi,
2012). Therefore, using this crop rotation method women farmers strengthen their resilience to
drought. The drought has less impact unlike when they do not use this adaptive measure.
The study results in Figure 5.4 above reveal that the least adaptive strategy applied by these women
farmers is using improved irrigation systems. Only 2 percent of the women farmers indicated they
apply this method. Those farmers who are used improved irrigation are A2 farmers, none of the
A1 farmers indicated that they use this method. The reason why there are few women farmers who
use this method is that the method requires machinery that is too expensive especially for small-
scale farmers. One of the A2 farmers who is using irrigation systems pointed out that “I was just
fortunate to be given a farm that had an irrigation system and a dam close to the farm”. This
farmer indicated, “the former white commercial farmer is the one who placed those irrigation
systems otherwise if not for the former farmer I was not going to afford to have an irrigation system
at the farm”. Irrigation systems are very effective especially when there is a drought, farmers make
use of irrigation instead of waiting for the rains.
130
Having farming insurance is an advantage because when weather related events such as drought
strike, farmers can claim from the insurance company. Only 6 percent of participants indicated
that they have insurance. Most of the participants that had insurance were A2 farmers. These were
farmers who were financially stable, and they know the importance of been insured. The
agriculture experts also indicated that most of the tobacco farmers have hail and storm insurance
and farmers with livestock have insurance that covers lightning and natural diseases. The
insurance covers their crops, animals and the equipment that they use for farming. Other women
farmers who indicated that they do not have insurance pointed that they knew the importance of
having an insurance, but they said they cannot afford paying the insurance. Most of the women
farmers did not have any other sources of alternative income besides receiving money from selling
crops or livestock, so they cannot pay for the monthly insurance subscriptions.
5.4.2 Adaptive measures to deal with future uncertainties
For the future uncertainties to have no or few effects there are some measures that can be
implemented for a community to become resilient to a negative event. Descriptive statistics are
used to describe future uncertainties that affect the resettled women farmers in Mashonaland
Central province. Table 5.10 below shows the descriptive statistics for future uncertainties that
resettled women are subjected to. To find out how the women farmers dealt with future
uncertainties, the following issues were addressed: adaptive strategies leading to a stronger
resilience, the strategies allowing the community to cope with the changes, the existence of climate
change awareness campaigns and the ability of the resettled women farmers to access climate
change and drought information.
131
Table 5.10: Future uncertainties
Adaptive strategies lead to
stronger resilience
Strategies allow the
community to cope with
changes
Climate change
awareness campaigns
Access to climate
change/drought
information
Valid 267 267 267 267
Missing 0 0 0 0
Median 1.000 2.000 2.000 2.000
Mode 1.000 2.000 2.000 2.000
Shapiro-Wilk 0.624 0.580 0.548 0.629
P-value of
Shapiro-Wilk
<.001 <.001 <.001 <.001
Minimum 1.000 1.000 1.000 1.000
Maximum 5.000 5.000 2.000 2.000
Source: (Survey, 2019)
132
Participants were asked if the strategies that they applied led to stronger resilience. According to
Table 5.10, the mode of the question about the strategies leading to stronger resilience is 1.000.
The study shows that the participants agreed that applying strategies such as diversifying crops,
crop rotation, using improved irrigation systems and having insurance strengthened their resilience
to drought. These women apply different strategies depending on what method is convenient to
them. However, most of the resettled women used crop diversity and crop rotation. These methods
have been used in the past and they have proved to be cheaper than using advanced irrigation
systems. Using advanced irrigation systems applies to be the best method when there is a drought
but only few women farmers can afford it.
Strategies can be put in place, but the community can react differently to the strategies they use.
Some people may feel the strategies can help them cope with the changes and trends, but some
have a different perceptive. The resettled women farmers that participated indicated that even
though the strategies lead to stronger resilience, these strategies do not allow the community to
cope or respond to the trends and changes. The reason why the community cannot cope is probably
because some of the strategies such a crop diversity and crop rotation are not applied by the whole
community. Some of the community members might be not using any adaptive strategy therefore,
when drought occurs the community might suffer because those farmers with no adaptive
strategies will lose most of their crops. Some of the strategies such as having insurance and
improved irrigation systems will not work for the community as a whole because those adaptive
strategies require a lot of money and most of the resettled women farmers especially the A1 farmers
do not have enough money to apply these methods.
It is essential to conduct some awareness campaigns so that the community is informed of the
challenges that they are likely to face, and how they can overcome those challenges. According to
Table 5.10 above, the majority of the resettled women indicated that there were no awareness
campaigns in their area. Most of the respondents feel that they are not getting enough awareness
on climate change and drought, this is also supported by the responses of the participants when
133
they were asked about the impacts of climate change and drought. Most of the respondents
indicated they do not know the impacts. The level of education for most of the resettled women
farmers is low and most have basic knowledge. These people need to be taught about the impacts
of drought and what they can do to minimise those impacts. The other reason why the farmers do
not receive awareness is the farms especially the A2 farmers are far from each other. It is difficult
to gather farmers who are living far from each other. A few respondents indicated there are
awareness campaigns. These women said there are awareness campaigns but some of the farmers
do not show up in those meetings. They indicated that there are farmers who have houses in the
city, they come to the farms during the planting and harvesting seasons therefore they miss some
of the campaigns. The local leaders were asked if there are awareness campaigns and they said
there are awareness campaigns, the ward-based officers train the farmers. However not every
farmer attends the meetings and there should be more awareness campaigns to educate the
farmers.
The resettled women are likely not to be prepared for any drought event if there are not aware of
the forthcoming dangers. The resettled women are at great risk from drought because they do not
receive enough information. This is the case with most of the developing countries. Most African
countries have a limited degree of drought awareness and institutional capability to develop. The
most essential enabling aspects in resilience building and drought risk management include aspects
such as education of the community members, drought awareness and knowledge management
(Wilhile, Sivakumar and Pulwarty, 2014). The resettled women lack adequate education and do
not receive enough awareness. They have little knowledge on drought as a disaster, therefore these
areas must be addressed for them to build their resilience. Awareness campaigns are an effective
method because people will pass on the information to other people in the community.
Participants were asked if there have access to relevant and timely information relating to climate
change drought disaster. The results in Table 5.10 reveals that the resettled women farmers do not
have the information on climate change induced drought. The reason why these women do not
134
have the information is probably that these women farmers lack agriculture knowledge. Most of
the women got the farms based on political grounds and some were connected to people in the
government who were issuing farms. Most of the people who have agriculture diplomas and
degrees were not resettled therefore the ones that have farms do not have enough knowledge about
farming and the threats that affect farmers such as climate change. Information relating to climate
change and drought is normally published in climate magazines, journals and on the internet. Most
of the resettled women farmers do not have accesses to these forms of media.
5.4.3 Sector experts informing women farmers
Experts from different organisations work together with farmers. These experts educate the
farmers on various issues such as climate change and drought. Resettled women in Mashonaland
Central province indicated that they got information on drought from sectors such research
organisations, government, water management experts, agriculture extension officers and the
private sector.
135
Figure 5.5: Sector expert informing the farmers
Source: (Survey, 2019)
The study reveals that resettled women farmers receive most of their information from agriculture
extension officers. Agriculture extension officer usually relate with the farmers, they go into the
farms and identify challenges the farmers are facing. Extension officers indicated that they
normally conduct meetings with the women farmers and the farmers will be educated on the time
of the season to plant and if there is drought, they inform the farmers to plant drought resistant
crops. The government of Zimbabwe sends various experts to the resettled farmers to inform them
about the programmes they are conducting. Thirty-one (31) percent of the resettled women farmers
indicated that they got information about intervention programmes such as command agriculture
and the presidential inputs from various government representatives. Only 3 percent of the
respondents indicated that they got information on drought from water management. Private
companies are also involved in dissemination of information related to climate change and
drought. However, their involvement is relatively low probably they do not have the capacity to
work with many farmers.
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
Researchorganisations
Government Watermanagement
Agricultureextension
Private sector
5%
31%
3%
50%
11%
136
5.5 LIVELIHOOD OF THE RESETTLED WOMEN FARMERS
For the majority of people in Zimbabwe, farming is not just an occupation; it is the only means of
survival. Small-scale farmers such as the A1 farmers grow variety of crops to take care of their
families and the community. Resettled women farmers in Mashonaland Central province gain
livelihoods through production on the land they obtained. A drought event can affect the livelihood
of the farmers and there are many initiatives that can be put in place to strengthen their resilience
to drought.
5.5.1 Livelihood strategies
There are various ways of improving the resettled women farmers’ livelihood. These include
access to markets, having other sources of employment, having programmes that advocate for
women empowerment and having other organisations that assist women in farming. Table 5.11
below shows the description statistics for the livelihood of resettled women famers in Mashonaland
Central province.
137
Table 5.11: Livelihood strategies statistics
Community access to markets Other sources of
employment for the
community
Cultural practices and
value that discriminates
women in farming
Programmes that
advocates women
empowerment
Valid 267 267 267 267
Missing 0 0 0 0
Mode 1.000 2.000 2.000 2.000
Standard
Deviation
0.474 0.457 0.372 0.368
Shapiro-Wilk 0.597 0.573 0.447 0.457
P-value of
Shapiro-Wilk
<.001 <.001 <.001 <.001
Minimum 1.000 1.000 1.000 1.000
Maximum 2.000 2.000 2.000 3.000
Source: (Survey, 2019)
138
The majority of the respondents indicated that they do have access to good markets. The women
farmers indicated that they sell their produce in their local markets, government and some of the
farmers supply farm produce to supermarkets. For farmers who are involved in market gardening,
they said they sell most of their produce at the local markets and several them sell their produce at
one of the biggest markets in the country (Mbare musika). The local leaders revealed that farmers
that obtained their fertilizers and seeds from command agriculture and the presidential scheme
are required by the government of Zimbabwe to sell their maize to state- owned Grain Marketing
Board. The farmers are required to sell their maize at a fixed price determined by the government.
The resettled women farmers believed that they have good markets because they can sell their
produce at a fair price and they are able to support their families.
The few respondents who were not happy about the markets said, “They normally travel for long
distance and they need to hire trucks for them to reach the marketplace.” Those who are not happy
are probably those farmers who stay in areas that are far from the marketplaces. The women
farmers expressed that they want to export their produce to international markets. In Mashonaland
Central province there are various marketplaces, these marketplaces are placed at growth points
and town centres. Farmers can sell their products to the local people and some of the local traders
buy directly from the farmers. Theses traders buy in bulk and they get a discount from the farmers.
From the interviews conducted with one of the local leaders, the leader said, “We have so many
A1 and A2 farmers in this area and these farmers depend on agriculture and most of them are
making a living from farming. We are happy that women have their farms and they can take care
of their families, they can sell their farm produce at Manhenga growth point and some sell along
the major roads.” The resettled women can improve their lives and the lives of the community by
selling them farm produce.
The presence of other income sources in a community is an advantage to the community because
the community can have another source of income. Table 5.11 above shows that the majority of
the resettled women indicated that the community does not have other sources of employment.
139
The reasons for not having alternative employment are probably that these communities are in
rural areas and in most of the rural areas in Zimbabwe there are no industries. Most of the industries
are in large cities and bigger towns. There are few shops available in rural areas therefore people
have very few employment opportunities. The chance of a person to get a job is very low so most
of the farmers rely on agriculture. One of the local leaders said “It is very tough for the community
because the community suffers the most when there are harsh weather events such as drought, the
farmers will lose their crops and they will not have any other alternative jobs to support their
families.” One of the participants was very emotional as she explains how frustrated she is with
the situation, this woman said, “I am a widow and I have raised my children through farming, I
have taken my children to school but I don’t see the benefit of that. My first born has a degree, the
second born has a diploma and the last one has just finished A level, all my children are not
employed. They are helping me at the farm instead of them doing their jobs. I was hoping that my
children will take me out of poverty, but they are just working here at the farm. If only my children
would find employment because relying on farming only is dangerous because if there is drought
we will suffer as a family.” Being unable to find employment has a very negative impact on the
resettled women farmers.
Even though most of the resettled women farmers indicated that there are no other sources of
employment, a few individuals indicated that there are other sources of employment. These
respondents were asked to state the other sources of employment, these are highlighted below:
• Brick molding
• Gold panning
• Fishing
• Trading
• Sewing
• Shop assistant
140
Most of the employment positions they mentioned are informal employment since there is a high
unemployment rate in Zimbabwe. Most of the farmers do not have other sources of employment
and most people are employed in the informal sector in line with what the BBC NEWS (2017)
reported. The BBC NEWS (2017) pointed out that more than 90 percent of Zimbabweans are
unemployed and the majority of the employed are employed in the informal sector. Participants
who indicated that they had other sources of employment were from Bindura district. Bindura is
the provincial capital of Mashonaland Central province so farmers who are close to the town can
work in Bindura. Some farmers in Shamva indicated that the community is involved in illegal gold
panning and illegal fishing. In Centenary, one of the towns in Muzarabani district, the community
also depends on trading. Some of the people sell vegetables, second-hand clothing and some are
employed in the shops that are at the town centre of Centenary.
There are some cultural practices and values that will either positively or negatively affect people’s
way of life. Most of the respondents indicated that there are no cultural practices and values that
discriminates women from farming. The rights of women are being observed, and the resettled
women farmers feel that they have gained some respect from the society. Most of the cultural
practices that discriminates women from farming have been abolished by the government of
Zimbabwe. Women farmers were not allowed to own any piece of land, according to the cultural
practices, women were supposed to allow men to oversee the land even if their husband dies. A
woman would lose a piece of land she owned with the husband because the culture and beliefs
regarded women an outsider who had no right over the piece of land.
According to past cultural practices and beliefs women were regarded as helpers and they could
not make decisions in the home, only men could make decisions. Social norms influence decision-
making processes in the home, which in turn affecst the ability of women to access training
opportunities, as seen in seed potato multiplication and potato production in Malawi (Njuguna,
Liani, Beyene and Ojiewo, 2016). Most of the cultural practices that discriminate women from
farming have been abolished by the government of Zimbabwe. This is also supported by the
141
representation of women in crucial positions such as the parliament of Zimbabwe, the number of
women representations has increased (Tshuma, 2018) unlike in previous years. The government
of Zimbabwe has changed some of the cultural beliefs that discriminated against women in
farming. During the Fast Track Land Redistribution Programme, women were allocated their piece
of land. This is also confirmed by the number of women in this study who own farms, especially
those who are single and widowed. There were few women who mentioned that they are some
cultural practices and beliefs that discriminate against women farmers. The cases were few and it
is usually abusive men who use old cultural practices and beliefs to justify their behaviour. One of
the respondents said that she was not allowed to decide what to farm, the husband decided what
he wanted, and she was supposed to agree with whatever the husband decided. That was just an
isolated case, but resettled women farmers were happy that they can manage the farms and make
some critical decisions regarding farming.
Resettled women farmers in Mashonaland Central province were asked if there have knowledge
of the programmes that advocate for women empowerment. Table 5.11 reveals that the majority
of the respondents did not know of programmes that advocates for women empowerment. The
reason why most of the respondents do not know of the programmes is there are few awareness
campaigns that alert women farmers of available programmes. Some of the respondents indicated
that there are no programmes because they are not part of these programmes. Most of the women
indicated that if there are programmes for women empowerment then they are in some areas not
in their community. However, there were some respondents who indicated that there are
programmes that advocate for women empowerment, these women were asked to mention the
programmes and they mentioned the following skill development projects:
• Bread making project- women are encouraged to make bread and sell the bread to the
community
• Detergent making project- women are taught to make detergents and they use the
detergents and they also sell some of the detergent
142
• Sewing and knitting cooperatives- women join cooperatives and they are taught to sew
clothes and knit, and they will sell their produce.
These programmes have assisted women farmers with much-needed skills. These women have
gained skills that they can even pass the knowledge to other people in the community.
5.5.2 Social networks as adaptive mechanisms
Resettled women farmers in Mashonaland Central province made use of various social networks,
these social networks advocate for drought risk reduction. Network and networking of the resettled
women assists them in adapting to the drought events. According to Coleman (1998), social
networks are utilised by people to accomplish their goals and interest. It is in the interest of the
resettled women to minimise the risk of drought; therefore, they are part of social networks. Social
networks can be formal or informal and the resettled women indicated that they make use of the
following social networks:
• Farmers organisations
• Church members
• Mikando (society)
• Family networks
• Political connections
• Friends
The women farmers indicated that they find emotional support from these networks but in few
cases, they are able to get financial support. Literature suggests that social networks are one of the
essential strategy rural farmers can apply to deal with the effects of any disaster especially drought
(Bruschweiler and Gabathuler, 2006). The involvement of these social networks lowers the
vulnerability of the resettled women to drought impacts. The farmers’ organisation safeguards the
interest of the farmers. They offer support and assist the farmers with information on how to reduce
risk of events such as drought. These organisations include the Zimbabwe Farmers Union (ZFU),
143
Tobacco Growers Trust (TGT), Cattle Producers Association (CPA), Zimbabwe Tobacco
Association (ZTA) and National Association of Dairy Farmers (NADF). Women farmers can get
spiritual and emotional support from church members. This kind of support will give strength to
the farmers to continue farming and women farmers get some advice from church members on
ways to reduce the risk of drought. The mikando (society) groups that women farmers are involved
offer some financial support, they can contribute money and they will use the money to buy inputs
such as drought resistant seeds. Family networks, political connections and friends assist the
women farmers with emotional, financial and advice on how to minimise the impacts of drought.
5.5.3 Making informed agriculture related decisions
It is essential for women farmers to make the right decisions concerning agricultural related issues.
The decision-making process can be influenced by several factors. Women farmers may fail to
decide because of their nature, the farmer might prefer to avoid risk or is risk averse, or the farmer
can decide because she is a risk taker. There is need to make the right decisions and failure to do
so has some negative consequences attached.
144
Figure 5.6: Agriculture related decisions
Source: (Survey, 2019)
The respondents were asked how they feel about making a decision that is agriculture related. The
majority of the respondents indicated that they strongly agree that as a woman they are able to
make decisions that are agriculture related. This shows that the resettled women in Zimbabwe have
the power to make decisions, they no longer rely on men to decide for them. The Ministry of
Women Affairs, Community, and Small and Medium Enterprises Development has worked
tirelessly to make sure that some of the rights of the women farmers are observed. A total of 111
respondents agreed that they can make decisions on agriculture matters. The reasons for having a
huge number of women who are making decisions is because there are several single women,
widows and those who are separated. These women are not obliged to consult anyone, they can
make independent decisions. There are, however, some women who were unsure of their abilities,
these are women who can make decisions at times, but there are times when they feel like they
need to consult someone on agriculture related decisions. The number of women who disagree and
121
111
22
7 6
0
20
40
60
80
100
120
140
Strongly Agree Agree Undecided Disagree Stronglydisagree
Strongly Agree
Agree
Undecided
Disagree
Strongly disagree
145
strongly disagree is very low. These were few married women who felt they cannot make any
agriculture related decisions without consulting their partners, they feel not consulting their
partner’s shows that you are disrespectful. According to the Shona culture and beliefs a woman is
under a man therefore, the women must consult the husband first then the husband makes the final
decisions since he is the head of the house.
5.5.4 Ability to get financial assistance from the bank
Farmers can ask for assistance from the bank in the form of a loan and the farmers are required to
pay the money back. The banks normally verify if the farmer is eligible to get assistance from the
bank. For a farmer to get a loan, the bank needs collateral security, and a farmer must pledge assets
for security purposes. When the farmer fails to pay the amount borrowed the bank will repossess
the farmers’ assets. If the farmer does not have any tangible assets to pledge, the farmer will not
be able to get a loan. Figure 5.7 below shows how the resettled women farmers feel about getting
a loan or any assistance from the bank.
146
Figure 5.7: Getting a loan or any assistance from the bank
Source: (Survey, 2019)
Resettled farmers had different views about the ability to get a loan or any financial assistance
from the bank. The highest number of responses was 79, and these are women who agree that it is
possible to get a loan as a female farmer. The number of resettled women who strongly agree that
it is possible to get a loan were 46. The respondents who strongly agree and those who agree
emphasised that it is only possible for them to get a loan if they have valuable assets, these women
said the banks do not discriminate based on gender but the bank only wants collateral security.
Some of the women who agreed and strongly agreed mentioned that they can get a loan from banks
such as Agribank and Women’s Micro-finance bank. Besides other banks, these are the banks that
can assist women farmers with loans and they also fund some agriculture projects. At Women’s
Micro-finance bank, women farmers can apply for micro farming loans which are meant for inputs,
tillage and harvesting. Women farmers can also apply for micro leasing/asset, finance loans which
assist women farmers with farming implements and machinery. From the observations noted
during the study, most of the A2 farmers agreed and strongly agreed that they can get loan. This
46
79
58
62
22
Strongly agree Agree Undecided Disagree Strongly disagree
147
is probably because they have valuable assets that can be used as collateral; therefore, it is not
difficult for them to get loans. This is a different case for most of the A1 farmers who are small
scale farmers and most of them lack resources.
The number of women who disagreed is 62 and those who strongly disagreed are 22. This is an
indication that some of the resettled women do not access to loans from the banks. Some of the
respondents said,” they have been turned away by some banks when they wanted to borrow
money.” These women were told that they do not qualify to get loans from the bank. However,
some of the women indicated that they did not attempt to get loans, they were informed by other
people that it is difficult to get a loan, so they believe it is difficult to get a loan. Fifty-eight (58)
respondents were undecided, these are women who are not quite sure if they can get a loan from
the bank or not. Some of the women in this category said they were times when a woman can apply
for a loan and get the loan and there are times when you cannot get the loan. It is important for
resettled farmers to get loans from the bank so that they upgrade and maintain their farms to run
efficiently. The agriculture experts expressed that,” it is important for farmers to get loans because
loans can be used for repairs and upgrades to infrastructure or land and this will in turn improve
the farms value, make the farm business more efficient and this can also improve the products on
the farm.”
5.5.5 Financial assistance from government for women farmers
Women farmers can get assistance from the government to boast agriculture supplies of a country.
Governments usually offer financial assistance to farmers during critical times such a drought
event that affects whole country or some sections of the country. Farmers usually expect financial
support from the government, but it is up to the government to provide the support. Some
governments fail to give all the farmers support but there are some categories of farmers that might
get assistance. Figure 5.8 below shows the response by resettled farmers regarding getting some
financial assistance from the government of Zimbabwe.
148
Figure 5.8: Ability to get financial assistance from the government
Source: (Survey, 2019)
The majority of the respondents (75) indicated that they disagree that they are able to get financial
assistance from the government of Zimbabwe. Some of the women farmers believed the
government of Zimbabwe does not have the capacity to assist farmers because the country is facing
some economic challenges. The number of respondents who strongly disagreed that they could get
financial assistance from the government is 35. Some of the respondents who strongly disagreed
pointed out that, “they will not be able to get financial assistance from the government because
they are not politically connected.” The number of respondents who were undecided was high.
These were not sure if the government is providing financial support to farmers. It is more likely
that these are emerging women farmers who are not sure of the measures that the government is
taking to assist farmers.
There are few respondents who strongly agreed that the government financially assists women
farmers. The researcher further questioned these respondents and they indicated that they get
financial assistance from the government in the form of subsides. In agreement with the response
28
59
70
75
35
0
10
20
30
40
50
60
70
80
StronglyAgree
Agree Undicided Disagree Stronglydisagree
Strongly Agree
Agree
Undicided
Disagree
Strongly disagree
149
from the resettled women farmers who agreed and strongly agreed that government gives
assistance to farmers, Mazwi (2019) indicated that the government of Zimbabwe has been assisting
farmers through command agriculture. This is a specialised import substitution programme that at
the onset only covered maize, however this has been extended to other sub-sectors. From the
interviews conducted, agriculture experts emphasised that, “The government provides finance to
the agriculture sector under the command agriculture programme, the Ministry of Agriculture
provides seed, fuel, irrigation and essential mechanised equipment for the small-scale farmers.
The farmers in turn, sell the produce to the Grain Marketing Board. The government does not
provide loans directly, but it will arrange for guarantees for the loans presented to farmers of oil
seeds and grains.” The reason for have different options from the respondents are some of them
expected to get direct loans from the government, while other respondents are aware that the
government is indirectly providing financial support to the women farmers.
The respondents were asked to indicate the type of assistance they require for them to improve
their livelihood and increase their farming production. Most of the resettled women indicated that
they would like the government and any other organisations to provide them with the following:
• Machinery such as tractors, combine harvesters and sprayers
• Drought tolerant seeds so that they will produce crops when there is a drought
• Fertilizers and pesticides
• Irrigation machinery
• Financial assistance to establish community projects and develop their farms
• More training programmes for them to learn about farming some of the resettled farmers
do not have formal education that is agriculture related.
The resettled women believed if they have more support from the government and other
organisations, they can produce more.
150
5.6 GOVERNMENT INVOLVEMENT IN REDUCING DROUGHT IMPACTS FOR
RESETTLED WOMEN FARMERS
There are many measures that the government can implement to assist its citizens. When a country
is faced with disasters such as drought, the government is usually involved in different initiatives
to curb the impact of the disaster. Table 5.12 below shows the descriptive statistics for government
involvement in the affairs of the resettled women. The respondents were asked if there are some
organisations or institutions that are involved in assisting women in farming and how the
government is involved in planning for drought risk reductions. The resettled women farmers
revealed how they are relating with the government and other organisations. The women farmers
also indicated the type of assistance they require from the government to reduce the impacts of
drought and strengthen their resilience towards drought.
151
Table 5.12: Government interventions regarding drought risk reduction
Organisations/institutions
assisting women
Government engaging
community in planning for
drought risk measures
Government involvement
in planning disaster risk
reduction
Effectiveness of the
current legislations,
institutions and policies on
climate change/drought
Valid 267 267 267 267
Missing 0 0 0 0
Mode 2.000 1.000 2.000 2.000
Standard
Deviation
0.397 0.471 0.474 0.361
Shapiro-Wilk 0.499 0.571 0.597 0.431
P-value of Shapiro-
Wilk
<.001 <.001 <.001 <.001
Minimum 1.000 1.000 1.000 1.000
Maximum 3.000 3.000 2.000 2.000
Source: (Survey, 2019)
152
Organisations and institutions play a pivotal role in community development. Most organisations
are involving in the affairs of the community as they are part of the community. In Table 5.12 most
of the respondents revealed that there are not getting support from organisations or institutions that
are supposed to assist women in farming. These women revealed that there are few organisations
that are helping women farmers. Most of the women farmers are not getting support from those
organisations because the number of women who require assistance is very high therefore the
organisations are not able to assist all the women farmers. The situation is even worse when there
is a drought event in the area, the organisations and institutions will not have the capacity to
accommodate most of the women farmers. The organisations normally work with the local leaders
to identify people who need relief support. In some situations, the women farmers fail to get the
relief from the organisation because of some corrupt leaders who steal from the people.
There were some respondents who pointed out that they are getting assistance from NGOs such as
the Development Aid from People to People (DAPP), United Nations Development Programme
(UNDP) and United Nations World Food Programme (WFP). These are some of the organisations
that are working with women farmers who need assistance. Women farmers receive food aid
especially when there is a drought. The agriculture experts revealed that the women farmers
normally get assisted by organisations and the government. The experts said the women farmers
receive seeds and fertilisers and the farmers also receive some training from these organisations.
One of the local leaders said, “We normally receive tobacco seeds and fertiliser from the
Mashonaland Tobacco Company (MTC), they send some extension officers who regularly come
and check our progress. These extension officers educate us on how we are supposed to manage
our tobacco. In return, we sell our tobacco to the company and this is assisting use because we
had little knowledge on the management of tobacco.” From the observations, there are some
organisations that are assisting women farmers in Mashonaland Central, but the number of women
farmers outweighs the organisations so most of the resettled women do not get that assistance.
153
Most of the respondents indicated they strongly agreed that the government should engage the
community when there are planning for drought risk measures in their area. They believe that if
the government works hand in hand with the community, they will be able to minimise the risk
imposed by drought. Community members felt involvement in planning would ensure the
government understands the challenges and is able to provide with the relevant assistance that the
community needs. There are general impacts of drought, but communities react differently,
therefore joint planning of drought risk measures ensures that the community and the government
come up with measures that are fit for that community. The women farmers indicated that they
want to be engaged in planning because their past experiences of drought will help the government
to identify the type of resources that will be needed in the future when that community is subjected
to a drought event.
The respondents were also asked if the government of Zimbabwe is engaged in implementing
effective drought disaster risk reduction strategies, most of the respondents do not think the
government has effective strategies. The reason for not believing that the government is effective
is probably because the women farmers have bad experiences in the past. The government of
Zimbabwe is experiencing some economic challenges and the country lacks some of the resources
that can be used to implement effective drought risk measures. Appropriate governance is crucial
for maintaining and building essential drought policies and for incorporating drought risk matters
into sustainable development and processes of disaster risk reduction (UNSDR, 2017). From the
observations, it was noted that there was lack of coordination between the government and the
community members. The government failed to assist the local government and the community to
come up with some coping capacities. The government has failed to translate drought risk policies
into local drought risk reduction practices. The resettled women farmers felt the government has
not yet developed effective preparedness and mitigation measures.
For the government of Zimbabwe to implement drought risk measures, there is need for the
government to have effective early warning systems. Early warning systems ensures the decrease
154
of economic damages and mitigate the number of people affected by the disaster by presenting
information that will allow farmers to safeguard their lives and their property. The presence of
early warning information encourages the farmers to act prior to a drought event. The respondents
gave suggestion on how the government can build comprehensive drought monitoring and early
warning systems. Most of the respondents indicated that, “The government should have improved
and advanced metrological systems to increase accurate weather forecasts.” Some of the
respondents said, “The government should allow the weather experts to educate the community so
the community will be able to know what to do when they are about to face a drought event.” The
respondents believed that if there are comprehensive drought monitoring and early warning
systems will reduce the impact of drought. Vogel et al. (2000) pointed out that if there is a delay
in implementing interventions strategies the community will be negatively affected as this will
make the community depend on the government for assistance. Therefore, there is need to initiate
drought risk reduction measures to avoid a dependency syndrome.
The respondents were asked if they were aware of some of the policies that promote poverty
reduction at national and local level. The policies that the respondents were familiar with include
the land policy, the new grain policy, the national gender policy and food and nutrition security
for Zimbabwe in the context of economic growth and development. The land policy covers issues
on land redistribution, the resettled women were beneficiaries of this land policy as it was used for
land reform. Farmers are given seeds and fertilisers in the new grain policy and mandated to sell
their grain to the state-owned Grain Marketing Board. The gender policy aims to achieve gender
equality through eradicating any form of gender discrimination in the cultural, social and political
sphere. The gender policy assisted women to be involved in many projects and to be in influential
positions therefore reducing the level of poverty among women. The poverty alleviation strategies
have assisted women farmers with ways to improve their lives. The government of Zimbabwe has
put in place some more measures to alleviate poverty.
155
The majority of the respondents did not agree that the current legislations, institutions and policies
on climate change and drought in the country are affective. Despite the government formulating
laws and policies, the respondents did not see the effectiveness of them because they have not
experienced many positive results. One of the respondents went on further to explain why she
thinks the policies and legislations on climate change and drought are not effective. The respondent
said, “The policies, laws and institutions on climate change and drought are not known by so many
people, especially the resettled women. The government should make the farmers aware of these
initiatives so that the farmers abide by the rules of the country.” The government should work
closely with the farmers and the local leaders to make sure that the community abide by the laws
and policies of the country. The agricultural expert elaborated more by saying Zimbabwe does not
have any specific legislation or policy on climate change beyond the National Climate Change
Response Strategy (NCCRS). The drought policies are the National Policy and Programme on
Drought Mitigation and the Disaster Risk Management Policy and Strategy. Besides the policies
mentioned, the Civil Protection Act is also used as the main guideline to combat disasters such as
drought. These policies stipulate strategies to curb the impact of drought in the country.
The resettled women farmers were asked about how the government of Zimbabwe can improve on
drought risk reduction; their responses were as follows:
• The government should make sure that there are more supplies of drought resistant seeds
• The government should educate and conduct workshops that women farmers can attend
• The government should supply them with more seeds, fertiliser and pesticides
• The government should construct many dams
• The government should control the price of all agriculture products
• Law officials should be strict on criminals who steal agriculture products such as irrigation
equipment
• The government should give more support to women cooperatives
• The government should make sure that government workers are doing their jobs properly
156
The resettled women farmers want the government to assist them to become better farmers and
they will be able to provide for their families and the nations at large. The resettled farmers’ belief
is that if the government gives them extra support, they will be able to strengthen their resilience
and lessen the impacts of drought.
5.7 ASSISTANCE TO IMPROVE RESILIENCE OF WOMEN FARMERS
The community needs to bounce back even better after they have been subjected to a disastrous
situation. Farmers that have been affected by drought need some assistance in the form of relief to
move on with their lives and be able to support their families. The relief that farmers receive saves
life of the farmers and their families reduces the level of suffering posed by drought and it helps
to protect human dignity. Table 5.13 below shows the descriptive statistics of the level of
assistance that the resettled farmers received.
157
Table 5.13: Assistance to build resilience
Awareness of relief
programmes
Benefiting from drought
relief funds
What type of relief do the
women farmers get
How satisfied are the
resettled women with the
relief they are getting
Valid 267 267 267 267
Missing 0 0 0 0
Median 2.000 1.000 3.000 4.000
Mode 2.000 1.000 3.000 4.000
Standard
Deviation
0.484 0.484 0.828 0.1014
Shapiro-Wilk 0.612 0.612 0.838 0.762
P-value of Shapiro-
Wilk
<.001 <.001 <.001 <.001
Minimum 1.000 1.000 1.000 2.000
Maximum 3.000 3.000 4.000 5.000
Source: (Survey, 2019)
158
Drought poses a great threat, and farmers who depend on agriculture are likely to be greatly
affected because they do not have another form of livelihood. To ease the burden, farmers receive
some assistance in the form of relief. The respondents were asked if there are aware of the relief
programmes that are in place. Most of the respondents indicated that they are aware of the
programmes. Most of the relief programmes that the women farmers were aware of include the
presidential aid, command agriculture and relied aid that is provided by some NGOs. The reason
why most of the respondents are aware is some of the respondents are beneficiaries of the
programmes. Some of the respondents indicated that they once benefited from the programmes in
the past but because of some reasons they no longer benefit. It is important that the respondents
are aware of the relief programmes. The women farmers can apply for these relief programmes
and they will get assistance thereby reduce the impact of drought. Although most of the
respondents are aware of the relief programmes, some resettled women were not aware of the relief
programmes. Those who did not know about the programmes was maybe because they did not
stay close to other farms and are likely to miss some of the activities in the community.
It is essential for farmers to benefit from relief programmes especially when the farmer has lost
most of the produce due to drought. Table 5.13 above shows that most of the farmers get relief in
the event of a drought. Relief aid assists farmers to survive even when they have lost some of their
produce due to drought. They will be able to boost their farming production and able to secure
food production. The women farmers have benefited from different programmes that were initiated
by the government under the social development department and from different local and
international organisations. Organisations that have assisted the resettled women with relief
include WFP, DAPP and UNPD. There are some respondents who were not able to get relief aid,
this is because there are many people who have been affected by drought in the country so the
government is failing to provide relief aid to all the people. Some of the respondents further
explained that they failed to get relief assistance because they are some corrupt leaders who receive
aid for the farmers, but those leaders use the aid meant for the farmers. This is also supported by
159
what was reported by (The Standard, 2016). This is unfortunate because those farmers depend on
the leaders and they feel betrayed.
There are various ways farmers can get relief, this includes relief in the form of cash, cattle care,
subsidies, food for work and employment generating schemes. The respondents that indicated that
they managed to get relief were asked the type of relief that they get. Most of the women farmers
indicated that they managed to get relief in the form of subsidies. Subsidies that women farmers
received were predominantly from command agriculture. This is a government intervention
measure to assist farmers with relief in the form of seeds, fertiliser and other agriculture products.
These subsidies help to increase the resilience of the resettled women. Some of the women farmers
indicated that they received relief from the presidential input scheme. The president to support
farmers in need initiated the relief support programme in the form of seeds and fertilisers. The
local leaders were asked about the type of assistance resettled women were getting and they said,
“ from the presidential input aid scheme farmers are provided with 10kg of maize seed, 5kg of
sorghum seeds, 1 bag of top dressing fertiliser and 1 bag of compound D. For farmers who grow
cotton, they get 20kg cotton seeds, chemicals for pest and disease control, 1 bag of top-dressing
fertiliser and 2 bags of compound L fertiliser.” With the relief that the farmers were getting, the
women farmers could feed their families.
Participants were asked how they felt about the relief that they were getting. The results on Table
5.13 above, indicates that the majority of the respondent are not satisfied with the relief that they
are getting. This is probably because the resettled farmers are expecting more relief from the
government and other organisations that provide relief. The relief was not sufficient because the
women farmers had a large piece of land and they needed a lot of seeds and fertiliser on their
farms. Some of the resettled women have large families of 6 and above, so they felt the drought
aid they were receiving will not take them until the next season. They were also resettled women
who indicated that they had not received any relief, these are some of the people who were not
satisfied with the relief that is being given to the women farmers in the province. Another group
160
of respondents who were not satisfied were resettled women who used to get inputs under
command agriculture, presidential input scheme and other relief programmes and these women
failed to qualify for relief assistance because of different reasons.
5.8 RELIABILITY OF THE RESULTS
Reliability of the results was prioritised because it shows the overall consistency of a measure. A
measure is said to be reliable when it produces the same results under consistent situations. A
reliability test analysis was conducted, and the results of the test are shown in Table 5.14 below.
Table 5.14: Reliability test analysis
Reliability statistics
Cronbach's Alpha N of Items
.754 33
Source: (Survey, 2019)
The Cronbach Alpha was used to measure reliability of the data. The Cronbach's Alpha measures
internal consistency, which closely connects a set of elements in a group. The Cronbach’s Alpha
is 0.754 and the number of items shows the questions that were analysed. The results show that
the data is reliable because the Cronbach’s Alpha is above the threshold of 0.7, this number is
above the minimum acceptable value. The general rule of Cronbach Alpha is any number that is
above 0.7 is good, so this means that the collected data was reliable.
5.9 CONFIRMATORY FACTOR ANALYSIS (CFA)
To ensure that the data has agreeable factors and variables, factor loading from confirmatory factor
analysis (CFA) was used. This helps to find the correlation coefficient for the variables and factors.
It also helps to understand the fundamental nature of a specific factor. Table 5.15 below illustrates
the results of the factor loading
161
Table 5.15: Factor loadings
95% Confidence Interval
Factor Indicator Symbol Estimate Std.
Error z-value p Lower Upper
HAZARD AND
STRESS Q11-Knowledge of climate
change λ11 0.289 0.030 9.660 < .001 0.231 0.348
Q12- Lost some livestock due
to drought λ12 0.102 0.033 3.047 0.002 0.036 0.168
Q13- Lost some crops λ13 -0.039 0.021 -1.876 0.061 -0.079 0.002
Q16- Awareness of any
drought preparedness strategy λ14 0.203 0.028 7.222 < .001 0.148 0.257
Q17- Availability of a
personal drought plan λ15 0.239 0.022 11.065 < .001 0.197 0.282
Q18- Awareness of drought
early warning systems λ16 0.323 0.028 11.469 < .001 0.268 0.378
Q19- Involvement in drought
risk reduction λ17 0.255 0.023 11.281 < .001 0.210 0.299
FUTURE
UNCERTAINTY Q21- Adaptive strategies
applied leading to stronger
resilience
λ21 0.155 0.035 4.392 < .001 0.086 0.225
Q22- Strategies allowing the
community to cope with the
changes
λ22 0.315 0.030 10.558 < .001 0.257 0.374
Q24 Climate change
awareness campaigns λ23 0.306 0.026 11.920 < .001 0.256 0.357
Q25- Access to relevant and
timely information related to
climate change
λ24 0.375 0.028 13.274 < .001 0.320 0.431
LIVELIHOOD Q26- Access to good markets λ31 0.099 0.034 2.930 0.003 0.033 0.165
162
95% Confidence Interval
Factor Indicator Symbol Estimate Std.
Error z-value p Lower Upper
Q27- Other sources of
employment in the
community
λ32 -0.249 0.035 -7.194 < .001 -0.317 -0.181
Q28- Cultural practices and
values that discriminate
women from farming
λ33 -0.039 0.027 -1.454 0.146 -0.091 0.013
Q29- Programmes that
advocates for women
empowerment
λ34 -0.175 0.027 -6.494 < .001 -0.227 -0.122
GOVERNANCE
Q33- Organisations and
institutions that assist women
in farming
λ11 0.176 0.029 6.130 < .001 0.120 0.232
Q34- Government engaging
the community in planning λ12 0.114 0.034 3.372 < .001 0.048 0.180
Q35- Government
involvement in implementing
disaster risk reduction
activities
λ13 0.275 0.037 7.515 < .001 0.203 0.347
Q38- Legislations,
institutions and policies on
climate change/drought
λ14 0.289 0.032 9.036 < .001 0.226 0.352
RESILIENCE Q40- Relief programmes in
place λ11 0.176 0.029 6.130 < .001 0.120 0.232
Q41- Availability of relief in
times of drought λ12 0.114 0.034 3.372 < .001 0.048 0.180
Q42- What type of relief do
women farmers get λ13 0.275 0.037 7.515 < .001 0.203 0.347
163
95% Confidence Interval
Factor Indicator Symbol Estimate Std.
Error z-value p Lower Upper
Q43- The level of satisfaction
with the relief λ14 0.289 0.032 9.036 < .001 0.226 0.352
Source: (Survey, 2019)
164
The factor loadings table shows the different factors (hazards and stress, future uncertainty,
livelihood, governance and resilience), the indicators, symbols, estimates, standard error, z- value,
p- value and the upper and lower confidence interval. The results for the CFA (factor loadings)
show that the p value for the indicator (loss of crops) and the p value for the indicator (cultural
practises and values that discriminate women from farming) is greater than 0.05. This means
variable Q13 (loss of crops) does not load very well under the hazard and stress variable and
variable Q28 (cultural practises and values that discriminate women from farming) does not load
very well with the livelihood variable. The variables that load very well have a probability value
that is less than 0.05, this means all the other questions have loaded very well accept the two that
are mentioned above. Most of the variables that loaded very well had a probability value of less
than 0.01, which means the other questions loaded extremely well. This is a confirmatory factor
analysis conducted to confirm whether these variables belonged to the mentioned factors/latent
valuables.
All the questions used in this study (indicators) are referred to as variables. Hazards and stress,
future uncertainty, livelihoods, governance and resilience are the latent variables/factors, this
means they cannot be measured directly but they can be measured using other variables. The aim
was to check if the variables belonged to the latent variables as per the framework used. The
question on loss of crops and the question on cultural practises and values that discriminates
women did not do very well because their p- values were both above 0.05 significance level.
Therefore, there is need to explore the variables more instead of removing these questions. The
researcher can either delete these questions from future analysis or run what is called exploratory
factor analysis to check were these questions belong. By removing the variables that did not load
very well from further analysis, the researcher is ensuring reliability and validity of the results.
The next step is to run an exploratory factor analysis to get a new bundle of latent variables.
165
5.10 VULNERABILITY ANALYSIS
Resilience and vulnerability are two sides of the same coin therefore it will be inappropriate to
measure resilience without knowing the level of vulnerability. The V2R framework allows the
researcher to measure the level of vulnerability so the researcher can develop a model for
resilience. Conducting a vulnerability analysis assisted the researcher to determine how vulnerable
the resettled women farmers were and in which area.
Table 5.16 Vulnerability analysis
Vulnerability index
Hazard & Stress
Q11 Q12 Q16 Q17 Q18 Q19
Vulnerability index per
indicator/question 0.344569 0.297753 0.741573 0.846442 0.662921 0.827715
Vulnerability index (Hazard &
Stress) 0.620162297 (62%)
Future uncertainty
Q21 Q22 Q24 Q25
Vulnerability index per
indicator/question 0.108614 0.178839 0.737828 0.569288
Vulnerability index (Future
uncertainty) 0.398642322 (39.86%)
Vulnerability index (Study area) 0.50940231 (50.94%)
Source: (Survey, 2019)
Table 5.17: Fractal stage of vulnerability
Low vulnerability 0 < VI < 20
Moderate vulnerability 20 < V1< 40
Vulnerability 40 < V1< 60
High vulnerability 60 <V1 < 80
Extreme vulnerability 80 < VI < 100
Source: (Hlalele, 2019)
Table 5.16 above shows the vulnerability analysis for resettled women farmers in Mashonaland
Central province. There are two questions that did not load very well on confirmatory analysis,
they were eliminated from the vulnerability analysis, these were: Question 13 which was removed
from hazards and stress and Question 28 which was removed from future uncertainty. The Iyengar-
Sudarshan method was used to calculate the level of vulnerability for the resettled women using
166
the hazard and stress and future uncertainty variables per latent variable. The Iyengar-Sudarshan
states that vulnerability is calculated in such a way that it will range from 0 to 1.
Table 5.17 above was used to determine vulnerability level; it ranges from low vulnerability to
very extreme vulnerability. When the values increase, vulnerability increases (Table 5.17).
Question 11 and Question 12 has the lowest numbers therefore, they do not contribute much
towards the vulnerability under hazards and stress factor. Question 18 (Awareness of drought early
warning systems) has a vulnerability index of 66 percent and Question 16 (Awareness of any
drought preparedness strategy) has a vulnerability index of 74 percent, these questions lie in the
high vulnerability stage. From the data presented on Table 5.16, Question 17 has 84 percent and
Question 19 has 82 percent, these questions lie in the very high vulnerability stage. Question 17
(Availability of a personal drought plan) and Question 19 (Involvement of the resettled women
farmers in drought risk reduction) created problems in terms of stress because the vulnerability
indexes are very high. Since four of the variables contributed heavily on hazard and stress factors,
the overall vulnerability index is also influenced. The overall vulnerability index for the hazard
and stress factor is 62 percent. As far as hazard and stress is concerned, the resettled women are
highly vulnerable.
The vulnerability analysis for future uncertainty shows that the vulnerability index for Question
21 (Adaptive strategies applied leading a stronger resilience) and Question 22 (Strategies allowing
the community to cope with the changes) were very low, this means these questions do not
contribute towards vulnerability of the resettled women. Question 25 (Access to relevant and
timely information related to climate change) has a vulnerability index of 56 percent, which means
it is in the vulnerable stage. Under future uncertainty, the variable that has the highest vulnerability
is Question 24 (Climate change awareness campaigns), the vulnerability index is 73 percent which
is in the high vulnerability level. The overall vulnerability index for future uncertainty is 39
percent. This shows that future uncertainty has moderate vulnerability while hazards and stress
have high vulnerability. Therefore, the overall vulnerability of the resettled women is
167
approximately 51 percent (0.50940231), which lies in the vulnerable stage as depicted in Table
5.17. This is an indication that resettled women farmers are vulnerable to climate change induced
drought that is affecting the area. It was essential to conduct a vulnerability analysis because the
analysis enabled the researcher to determine the level of vulnerability to set a basis for the
development of a resilience model or framework.
5.11 MODEL BUILDING FOR RESILIENCE (USING STRUCTURAL EQUATION
MODELLING
Since the level and areas of vulnerability for resettled women were established, concerning the
effects of climate change induced drought, there is need to build a model for resilience. The
resilience model was built using the structural equation modelling technique. Table 5.18 shows
the reiterative syntax or procedure that was used in the determination of the structural model using
the JASP computer software. JASP is an open-source computer software programme for structural
equation modelling. The measurement model shows the relationship of three latent variables:
Livelihood, governance and resilience and their manifest variables. The results from regression
show that resilience is equal to livelihood and governance.
Table 5.18: Latent Variable Analysis (Lavaan) Syntax: Structural equation modelling
#Measurement model
LIV=~Q26+Q27+Q29
GOV=~Q33+Q34+Q35+Q38
RES=~Q40+Q41+Q42+Q43
#Regressions
GOV~LIV
RES~LIV+GOV
#Residual correlations
Q33~~Q40
Q34~~ Q38+ Q41
Q35~~ Q42
Q38~~ Q43
Q41~~ Q43
Source: (Survey, 2019)
168
5.11.1 The Chi Square test
The Chi Square test is a tool that was used to check the fitness of the model, it is necessary to
check if the model fits well with our data. The Chi Square test was the first statistic tool that was
used to check the model.
Table 5.19: Chi Square test statistic
df AIC BIC χ² Δχ² p
Saturated 0.000 . . 0.000 . .
Model 1 35.000 3157.582 3229.424 38.125 38.125 0.329
Source (Survey, 2019)
When using the Chi Square, the focus is on the p- value, when the p- value is less than 5 percent
then the results are significant. The results for the Chi Square are said to be good when they give
insignificant results, that is when the p – value above 5 percent, this will prove that the model is
good, however this statistic is influenced by the sample size. Table 5. 19 above show that the p
value is 0.329, this shows that the p- value is insignificant. The results that were obtained were
good because the Chi Square is influenced by the sample size. Therefore, there is need to look for
other test statistical indices to check the fitness of the model.
5.11.2 The parameter estimates
The parameter estimates for the variable’s livelihood, governance and resilience were established.
A correlation coefficient of above 50 percent is strong, the higher the value the stronger the
correlation. The p- value of less than 5 percent significance level, this is an indication that the
correlation is very strong. The data presented in Table 5.20 below shows that the p value for the
variable’s livelihood, governance and resilience is less than 5 percent significance level. The
variables correlated very well to their latent variables under considerations. To supplement the
results, the standardised correlations coefficient was significantly strong, and all were above 70
percent.
169
Table 5.20: Parameter estimates
label est se z p CI (lower) CI (upper) std (lv) std (all) std (nox) group
LIV =~ Q26 1.000 0.000 . . 1.000 1.000 0.670 0.920 0.920
LIV =~ Q27 2.180 0.139 15.742 < .001 1.909 2.452 1.460 0.973 0.973
LIV =~ Q29 1.819 0.152 11.967 < .001 1.521 2.116 1.218 0.872 0.872
GOV =~ Q33 1.000 0.000 . . 1.000 1.000 2.223 0.850 0.850
GOV =~ Q34 1.257 0.182 6.889 < .001 0.899 1.614 2.794 0.717 0.717
GOV =~ Q35 1.058 0.151 6.987 < .001 0.761 1.354 2.351 0.722 0.722
GOV =~ Q38 1.265 0.145 8.722 < .001 0.981 1.549 2.812 0.846 0.846
RES =~ Q40 1.000 0.000 . . 1.000 1.000 2.103 0.808 0.808
RES =~ Q41 1.186 0.169 7.024 < .001 0.855 1.517 2.493 0.746 0.746
RES =~ Q42 1.280 0.160 8.002 < .001 0.966 1.593 2.691 0.824 0.824
RES =~ Q43 1.266 0.158 8.007 < .001 0.956 1.576 2.662 0.828 0.828
GOV ~ LIV 1.483 0.399 3.715 < .001 0.701 2.265 0.447 0.447 0.447
RES ~ LIV 0.572 0.221 2.586 0.010 0.139 1.006 0.182 0.182 0.182
RES ~ GOV 0.837 0.098 8.514 < .001 0.645 1.030 0.885 0.885 0.885
Q33 ~~ Q40 0.624 0.358 1.741 0.082 -0.079 1.326 0.624 0.296 0.296
Q34 ~~ Q38 1.313 0.702 1.871 0.061 -0.063 2.689 1.313 0.273 0.273
Q34 ~~ Q41 2.153 0.734 2.934 0.003 0.715 3.591 2.153 0.356 0.356
Q35 ~~ Q42 0.795 0.608 1.308 0.191 -0.396 1.986 0.795 0.191 0.191
Q38 ~~ Q43 0.348 0.442 0.787 0.431 -0.519 1.215 0.348 0.109 0.109
Q41 ~~ Q43 1.356 0.568 2.386 0.017 0.242 2.470 1.356 0.338 0.338
Q26 ~~ Q26 0.082 0.019 4.184 < .001 0.043 0.120 0.082 0.154 0.154
Q27 ~~ Q27 0.120 0.070 1.718 0.086 -0.017 0.256 0.120 0.053 0.053
Q29 ~~ Q29 0.467 0.090 5.177 < .001 0.290 0.643 0.467 0.239 0.239
Q33 ~~ Q33 1.891 0.444 4.256 < .001 1.020 2.762 1.891 0.277 0.277
170
Table 5.20: Parameter estimates
label est se z p CI (lower) CI (upper) std (lv) std (all) std (nox) group
Q34 ~~ Q34 7.373 1.374 5.366 < .001 4.680 10.066 7.373 0.486 0.486
Q35 ~~ Q35 5.067 0.952 5.324 < .001 3.202 6.933 5.067 0.478 0.478
Q38 ~~ Q38 3.148 0.739 4.261 < .001 1.700 4.596 3.148 0.285 0.285
Q40 ~~ Q40 2.351 0.480 4.895 < .001 1.410 3.292 2.351 0.347 0.347
Q41 ~~ Q41 4.954 0.914 5.419 < .001 3.162 6.746 4.954 0.443 0.443
Q42 ~~ Q42 3.431 0.713 4.814 < .001 2.034 4.829 -3.431 0.322 0.322
Q43 ~~ Q43 3.254 0.695 4.685 < .001 1.893 4.615 3.254 0.315 0.315
LIV ~~ LIV 0.448 0.087 5.173 < .001 0.279 0.618 1.000 1.000 1.000
GOV ~~ GOV 3.956 0.921 4.295 < .001 2.151 5.762 0.800 0.800 0.800
RES ~~ RES 0.172 0.215 0.803 0.422 -0.249 0.593 0.039 0.039 0.039
Source: (Survey, 2019)
171
5.11.3 The model fit additional indices
Since the Chi Square values were 32 percent and the value were insignificant, there is
need for additional indices. The additional indices help to judge if the model is fit for the
purpose. The Chi Square was insignificant because it was affected by the sample size
and other parameters. The tables below show the additional indices used to supplement
the Chi Square test results. The Tucker-Lewis Index (TLI) shows good fit when the index
is 0.95. According to Table 5.21 below, the TLI is 0.993, this is above the threshold
therefore, the index perfectly showed a good fit for the model. The Bentler-Bonett Non-
normed Fit Index (NNFI) is another index that can be used to judge the fitness of the
model. For the (NNFI) is said to be good when the value of the index is above 0.95. The
result of (NNFI) on Table 5.21 below is 0.993. This is above the minimum value and
this is an indication that the NNFI is very good for the model.
Table 5.21: Model fit additional indices
Model
Comparative Fit Index (CFI) 0.995
Tucker-Lewis Index (TLI) 0.993
Bentler-Bonett Non-normed Fit Index (NNFI) 0.993
Bentler-Bonett Normed Fit Index (NFI) 0.948
Parsimony Normed Fit Index (PNFI) 0.603
Bollen's Relative Fit Index (RFI) 0.918
Bollen's Incremental Fit Index (IFI) 0.996
Relative Noncentrality Index (RNI) 0.995
Source (Survey, 2019)
The other index that can be used to determine the fitness of the model is the Root Mean Square
Error of Approximation (RMSEA). The index for the RMSEA is said to be good when the value
is less than 0.7. According to Table 5.22 below, the RMSEA for the model is 0.035 which is below
the threshold. The results for RMSEA are an indication that the RMSEA can perfectly fit the
model.
172
Table 5.22: Root Mean Square Error of Approximation
Model
RMSEA 0.035
90 Percent Confidence Interval 0.000 -
0.092
p-value RMSEA <= 0.05 0.611
Source: (Survey, 2019)
There are other fit indices that can be used to determine the fitness of the model. These include the
Goodness of Fit Index (GFI), Parsimony Goodness of Fit Index (GFI) and McDonald Fit Index
(MFI). Table 5.23 below shows the other fit indices that can be used. The results of the other
indices show that the value for GFI is 0.923. These are good results because the minimum
acceptable threshold for GFI is 0.923.
Table 5.23: Other Fit indices
Model
Hoelter Critical N (CN) alpha=0.05 98.970
Hoelter Critical N (CN) alpha=0.01 113.804
Goodness of Fit Index (GFI) 0.923
Parsimony Goodness of Fit Index (GFI) 0.854
McDonald Fit Index (MFI) 0.979
Expected Cross-Validation Index (ECVI) 1.335
Source: (Survey, 2019)
For the purpose of the study, the indices that were selected to check the fitness of the model were
the Bentler-Bonett Non-normed Fit Index, Tucker-Lewis Index, Root Mean Square Error of
Approximation and the Goodness of Fit Index, therefore all of them showed good fit for the
structural model for resilience.
5.11.4 The modification of the indices
Since the fitness indices were established, there was a need to modify the indices. Table 5.24 below
shows the series of modifications that were carried out to arrive to the optimal structural model
where once denote questions or observed/manifest variables were used.
173
Table 5.24: Modification indices
mi epc sepc (lv) sepc (all) sepc (nox)
LIV =~ Q38 4.796 0.862 0.577 0.174 0.174
LIV =~ Q40 4.456 0.835 0.559 0.215 0.215
RES =~ Q38 4.260 1.420 2.986 0.898 0.898
Q33 ~~ Q35 3.771 0.849 0.849 0.274 0.274
Q26 ~~ Q34 3.040 -0.155 -0.155 -0.200 -0.200
GOV =~ Q40 2.687 -0.954 -2.122 -0.815 -0.815
LIV =~ Q33 2.286 -0.527 -0.353 -0.135 -0.135
Q42 ~~ Q43 2.193 0.672 0.672 0.201 0.201
RES =~ Q33 2.178 -0.945 -1.987 -0.760 -0.760
Q33 ~~ Q41 2.080 0.503 0.503 0.164 0.164
LIV =~ Q42 2.046 -0.708 -0.474 -0.145 -0.145
GOV =~ Q26 1.611 0.026 0.058 0.080 0.080
LIV =~ Q34 1.519 -0.613 -0.411 -0.105 -0.105
Q26 ~~ Q42 1.504 -0.089 -0.089 -0.169 -0.169
RES =~ Q26 1.501 0.029 0.062 0.085 0.085
Q26 ~~ Q40 1.378 0.067 0.067 0.153 0.153
Q29 ~~ Q41 1.336 0.188 0.188 0.124 0.124
Q35 ~~ Q41 1.301 -0.600 -0.600 -0.120 -0.120
Q26 ~~ Q33 1.284 0.061 0.061 0.155 0.155
Q27 ~~ Q33 1.044 -0.100 -0.100 -0.211 -0.211
Q29 ~~ Q43 0.998 -0.146 -0.146 -0.119 -0.119
Q26 ~~ Q38 0.945 0.065 0.065 0.129 0.129
Q27 ~~ Q34 0.896 0.152 0.152 0.162 0.162
Q29 ~~ Q35 0.829 -0.175 -0.175 -0.114 -0.114
Q34 ~~ Q35 0.814 -0.599 -0.599 -0.098 -0.098
Q40 ~~ Q41 0.810 -0.326 -0.326 -0.095 -0.095
Q34 ~~ Q43 0.792 0.613 0.613 0.125 0.125
Q38 ~~ Q42 0.757 -0.407 -0.407 -0.124 -0.124
Q27 ~~ Q29 0.698 0.132 0.132 0.558 0.558
Q35 ~~ Q43 0.695 -0.409 -0.409 -0.101 -0.101
Q29 ~~ Q38 0.691 0.127 0.127 0.105 0.105
GOV =~ Q29 0.644 -0.037 -0.082 -0.059 -0.059
Q38 ~~ Q41 0.639 0.468 0.468 0.119 0.119
Q33 ~~ Q38 0.636 -0.318 -0.318 -0.130 -0.130
GOV =~ Q41 0.635 0.507 1.126 0.337 0.337
174
Table 5.24: Modification indices
mi epc sepc (lv) sepc (all) sepc (nox)
Q34 ~~ Q42 0.632 0.457 0.457 0.091 0.091
RES =~ Q29 0.587 -0.041 -0.086 -0.062 -0.062
GOV =~ Q42 0.581 0.543 1.206 0.369 0.369
Q29 ~~ Q33 0.554 -0.091 -0.091 -0.097 -0.097
Q40 ~~ Q43 0.512 -0.244 -0.244 -0.088 -0.088
Q27 ~~ Q41 0.476 -0.089 -0.089 -0.116 -0.116
Q33 ~~ Q42 0.464 -0.273 -0.273 -0.107 -0.107
Q29 ~~ Q42 0.403 0.105 0.105 0.083 0.083
Q27 ~~ Q35 0.356 0.092 0.092 0.117 0.117
RES =~ Q34 0.354 -0.505 -1.062 -0.273 -0.273
Q27 ~~ Q43 0.295 0.064 0.064 0.102 0.102
GOV =~ Q27 0.292 -0.021 -0.047 -0.032 -0.032
RES =~ Q27 0.279 -0.024 -0.051 -0.034 -0.034
Q33 ~~ Q34 0.254 -0.229 -0.229 -0.061 -0.061
Q40 ~~ Q42 0.250 0.203 0.203 0.071 0.071
Q26 ~~ Q27 0.238 -0.052 -0.052 -0.522 -0.522
RES =~ Q35 0.227 -0.395 -0.832 -0.255 -0.255
Q27 ~~ Q38 0.213 -0.056 -0.056 -0.092 -0.092
Q33 ~~ Q43 0.206 -0.152 -0.152 -0.061 -0.061
Q35 ~~ Q38 0.169 0.218 0.218 0.055 0.055
Q41 ~~ Q42 0.152 -0.185 -0.185 -0.045 -0.045
Q26 ~~ Q29 0.148 -0.025 -0.025 -0.127 -0.127
Q29 ~~ Q40 0.142 -0.049 -0.049 -0.047 -0.047
LIV =~ Q41 0.116 -0.152 -0.102 -0.030 -0.030
Q34 ~~ Q40 0.111 0.148 0.148 0.036 0.036
Q26 ~~ Q35 0.105 0.027 0.027 0.043 0.043
Q29 ~~ Q34 0.077 -0.056 -0.056 -0.030 -0.030
LIV =~ Q43 0.057 -0.098 -0.066 -0.020 -0.020
LIV =~ Q35 0.035 0.091 0.061 0.019 0.019
Q27 ~~ Q40 0.020 0.015 0.015 0.028 0.028
Q26 ~~ Q41 0.018 -0.010 -0.010 -0.015 -0.015
Q38 ~~ Q40 0.013 -0.042 -0.042 -0.016 -0.016
Q27 ~~ Q42 0.005 -0.009 -0.009 -0.014 -0.014
Q35 ~~ Q40 0.003 0.023 0.023 0.007 0.007
Q26 ~~ Q43 0.001 -0.002 -0.002 -0.004 -0.004
175
Table 5.24: Modification indices
mi epc sepc (lv) sepc (all) sepc (nox)
GOV =~ Q43 0.000 -0.012 -0.026 -0.008 -0.008
Source (Survey, 2019)
5.12 STRUCTURAL MODEL FOR RESILIENCE FOR WOMEN IN FARMING
The main objective of the study is to develop a resilience framework for resettled women against
climate change induced drought risk. To accomplish the main objective of the study, a structural
model for resilience building was developed. Figure 5.9 below shows the newly developed
structural resilience model for resettled women against climate change induced drought disasters.
176
Figure 5.9: (Path Diagram: Structural model for drought resilience building)
Source (Survey results, 2019)
In Figure 5.9, the livelihood latent variable has three variables because the fourth variable was
eliminated when the confirmatory factor analysis was conducted. The remaining variables for
livelihood are Question 26 (Access to good markets), Question 27 (Other sources of employment
in the community) and Question 29 (Programmes that advocates for women empowerment). For
the governance latent variable there are four variables which are Question 33 (Organisations and
institutions that assist women in farming), Question 34 (Government engaging the community in
planning), Question 35 (Government involvement in implementing disaster risk reduction
activities) and Question 38 (Legislations, institutions and policies on climate change/drought).
177
The livelihood and governance variables contribute towards resilience. From the resilience model
above, the lines are green, this is an indication that the variables have loaded very well (high
correlations). Resilience was the dependent latent variable under consideration and livelihood and
governance were independent variables. The manifest variable Question 27 (Other sources of
employment in the community) in the livelihood variable had the highest loading of 0.97. The
other two latent variables Question 26 (Access to good markets) and Question 29 (Programmes
that advocates for women empowerment) had also high loadings which means all the three latent
variables fit well in the livelihood variable. For the Governance variable Question 33
(Organisations and institutions that assist women in farming) and Question 38 (Legislations,
institutions and policies on climate change/drought) had the highest loadings.
From Figure 5.9 above, the correlation coefficient of governance towards resilience is 0.89 which
is 89 percent and the influence of livelihood towards resilience is 0.18 or 18 percent. This means
the influence of governance towards resilience is higher than the influence of livelihood towards
resilience. Therefore, if governance is increased, resilience will be affected positively. A shift in
governance will also result in a shift in resilience hence there will be an achievement in
strengthening the resilience of women in farming. From the results in Figure 5.9, much attention
should be given to governance especially Question 33 (Organisations and institutions that assist
women in farming) and Question 38 (Legislations, institutions and policies on climate
change/drought), these latent variables contribute much towards resilience building of resettled
women farmers. However, there is need to look at livelihoods and address the issue to improve the
resilience.
The reason for correlating governance and resilience or livelihood and resilience using the
structural equation is because all the variables must interact sufficiently to bring about the desired
outcome. The structural equations model ensures that all the variables under consideration must
interact, it allows the interaction of manifest variables and the latent variables to bring about the
optimal solution of the optimal model that has been used. The researcher was also interested in the
178
interactions of the independent variables (governance and livelihood), with the dependent variable
resilience.
5.13 SUMMARY
This chapter focused on the presentation of data obtained from the study and the analysis of the
results. Qualitative data was merged with quantitative data and was presented as specified by the
convergence parallel research design. The major themes in qualitative data were presented in a
cohesive style, this is by presenting the findings in discussions or text form and figure. The
quantitative data was presented in the form of cross tabulation, tables, graphs and figures. The first
section of the chapter dealt with the demographics of the resettled women farmers who participated
in the study. The next section focused on the presentation and analysis of the hazards and stress
that affected the women farmers, the future uncertainties, the livelihood of these women, the role
of governance and the resilience of these women. In this section descriptive statistics per each
section was outlined. A reliability test was conducted using the Cronbach’s Alpha, the results of
the test proved that the data was reliable. Confirmatory factor analysis was carried out, some of
the questions that did not load very well were identified.
This was followed by a vulnerability analysis of hazard and stress and future uncertainty; it was
proved that the resettled women were more vulnerable to the hazards and stresses. The chapter
also focused on the model building for resilience using the structural equation. The Chi Square test
was used to determine the fitness and the results proved that the Chi Square was insignificant
because the test was influenced by the sample size. Therefore, other statistical indices were
considered. The next step was to determine the parameter estimates for livelihood, governance and
resilience. The variables correlated very well with their latent variables. Additional model fit
indices for the model of resilience were used to judge the fitness of the model. The indices that fit
the model of resilience were NNFI, TLI, RMSEA and GFI index. The modifications for the indices
that were done were shown and the results were presented in a table form. The last part of the
chapter focused on the building of the resilience model for women in farming. The model was
179
built, and it was noted that governance played an important part in resilience building of women
farmers towards drought. The next chapter will focus on the conclusion remarks and the
recommendations.
180
CHAPTER 6: CONCLUSION AND
RECOMMENDATIONS
6.1 INTRODUCTION
It is essential for a farmer to have a piece of land that they call their own, but there are some
challenges that are brought by weather related hazards such as drought. These challenges have
affected the livelihood of farmers. This situation is similar to the lives of the resettled women
farmers in Mashonaland Central, these women are affected by drought and their resilience needs
to be strengthened. Resilience in the field of disaster management was defined by the UNISDR,
as: “The ability of a system, community or society exposed to hazards to resist, absorb,
accommodate to and recover from the effects of a hazard in a timely and efficient manner,
including through the preservation and restoration of its essential basic structures and functions”
(UNISDR, 2009, p. 24).
Resilience building for farmers who are affected by drought is a major priority of the study.
Women in farming experience difficult situations because they are not able to bear the impacts
that are posed by drought. Mashonaland Central province has experienced a series of dry
conditions, and this has been attributed to climate change and climate variability. Women farmers
who obtained land under the FLRP are subjected to drought, they shared their different experiences
as a way of highlighting their vulnerabilities and impact of drought. The experience of resettled
women farmers in Mashonaland Central assisted the researcher to identify some ways to build
women farmers’ resilience towards drought.
The main object of the study was to develop a resilience framework for resettled women against
climate change induced drought. The research problem focused on the evidence that women in
Zimbabwe who benefited from the FLRP are facing a series of drought. The impacts of drought
affected the women farmers’ livelihood. To deal with the problem, the research came up with ways
181
to increase resettled women resilience. By increasing resilience of resettled women against climate
change induced drought events, the country’s food production will improve together with the
economic and social status of these women.
6.2 THEORETICAL AND CONCEPTUAL FRAMEWORK
Frameworks that are linked to resilience, drought and climate change were used in this study.
These frameworks include the PEOPLES framework, DRAMP Framework, the IPCC framework,
the DFID resilience framework. All the other frameworks were useful in identifying some aspects
that are important in the development of a drought resilient framework for women, however the
V2R framework was adopted in the study. The V2R framework highlighted how farmers can move
from vulnerability and initiate measures that can strengthen their resilience. The hazard and stress
components helped in identifying the nature of the hazards and their effect on the lives of the
resettled women farmers. It was established in the study that hazard prevention, and protection
may be achieved by enhancing the management of the resources. The future uncertainty
component of the V2R framework assisted in identifying that climate change is the current trend
that is affecting the resettled women, this brought a negative effect to the farmers. The livelihood
components assisted in identifying the skills that the resettled women possess, the technologies
that they use, their social networks and some of the activities that they are involved to make a
living. The vulnerability of resettled women is further worsened by their poor livelihoods. The
governance component in the V2R framework assisted in identifying the private and public, formal
and the informal organisations, the processes and the policies that are functional in the local
districts and in the province of Mashonaland Central as a whole. It also assisted in identifying how
the women farmers are getting resources they use in farming, the technologies that they use, and
the skills needed for them to protect themselves from drought.
182
6.3 SUMMARY OF THE FINDINGS
The resettled women who participated in the study were from Mashonaland Central province, these
women managed to fill in questionnaires, some of the people who took part in the study were
extension officers, local leaders and agriculture experts.
6.3.1 The demographics and vulnerability of the resettled women
The demographics of the women farmers were an influential factor in assessing the resilience of
women to climate change drought induced disasters. Women of different age groups and different
marital status respond differently in face of a disastrous situation. The results indicate that most of
women in A1 and A2 farms in Mashonaland Central are between the ages of 30 to 59, this age
range is made up of middle aged women who have families to feed and agriculture is also their
source of income. The 18 to 29 age group has the least number of respondents probably because
most young women prefer to be employed in the cities and most of the young women did not
manage to get land. The total number of women who are married was 170 and the combined
number of women who were single, widowed, separated and divorced is 97. This is an indication
that most of the respondents are farming together with their husbands and 36.3 percent of the
respondents are independent women farmers. The resilience of married women between the ages
of 30 to 59 is more likely to be greater than female headed household. Female-headed families are
more likely to be vulnerable than married women in male headed households to climate-related
disasters, this is because women tend to be more vulnerable than men (Fullera and Lainb, 2017).
In most cases, before the hazard occurs, women normally have less risk management strategies as
compared to their male counterparts. There is evidence in the literature that shows that men have
favourable opportunities to diversify their livelihoods as compared to women (Lanjouw, Quizon
and Sparrow, 2001; Musinguzi, Natugonza, Efitre and Ogutu-Ohwayo, 2017). Married women are
likely to depend on their husband when it comes to ideas and other farming inputs.
183
Almost 42.7 percent of the total respondents have a household size of 5 to 9, this shows that most
of the families have a bigger household size. None of the respondents who are divorced have a
household size of 9 to 12 and more than 12 and only married people have the highest number of
household size of 9 to 12 and more than 12. This is common in people who practice farming
especially small-scale farmers. It is emphasised in the literature that most small-scale farmers
prefer to have large families and one of the reasons is for labour purposes (FAO and UNICEF.
2019). Having a bigger household can affect the level of vulnerability of the family. Smaller
households are likely to be affected less by the impacts of drought than larger household who are
supposed to share even more from the little that they have. Research conducted by Orbeta, (2005)
shows that all the indicators have proved that it does not matter which poverty measure person
make use of, it is clear that the level of poverty becomes worse as we move from smaller to a much
bigger family size household.
The number of women farmers who are sole breadwinners and own a farm is greater than those
breadwinners who do not own a farm. Although the number of respondents who own a farm (76)
is not much, it is however an indication that the government is changing some past beliefs that a
woman cannot own land. Results from literature shows that 18 percent of female headed peasant
farmer households and 12 percent of female headed commercial farmer households benefited from
A1 and A2 land allocations in terms of total household beneficiaries (ZWRCN, 2007). Female-
headed households can take care of their families just like their male counterparts. Most of the
respondents (156) indicated that there are wives are also owners of land. This shows that there are
married women who are practicing farming together with their husbands and those women have
an equal share of the land as the husbands.
There were 107 out of 267 of women with ‘O’ level, these women managed to obtain land from
the government. Women with ‘O’ level have basic education which is necessary for them to
understand basic farming requirements. There are 96 respondents with no schooling and primary
school level, who have obtained land from the government. It is an advantage for these women to
184
obtain land from the government because there are not qualified for any other formal employment.
However, the level of vulnerability for these women is very high especially when there is a drought
as they rely on farming as their only source of livelihood.
Only two respondents who obtained land from the government indicated that they have a degree
and 10 respondents who obtained land from the government have a diploma. This is an indication
that very few women with higher education obtained land from the government. Evidence from
the literature suggests that education plays an important role when it comes to managing a disaster
Frankenberg, Sikoki, Sumantri, Suriastini, Thomas (2013). The literature revealed that education
also influences individuals to control their resources, one can purchase a costly disaster insurance
and highly educated people are likely to implement disaster preparedness measures (Muttarak and
Lutz, 2014). The more educated a farmer is the less vulnerable the farmer is, this is because
educated farmers have alternative sources of income, so they are likely to face less impacts during
a period. This is a different case in this study, most of the resettled women are not highly educated.
The resettled women are vulnerable to drought because the level of education for most women is
very low.
6.3.2 Hazards and stress experienced by women farmers
Most of the respondents do not have knowledge of climate change and drought impacts. Some of
the respondents did not attend school and some went as far as primary school. It makes it difficult
for them to understand the impacts of climate change. Lack of knowledge of climate change and
drought poses a serious threat to women farmers because you need to understand the problem for
you to deal with the problem. Lack of knowledge of the impacts of drought and climate change
makes these resettled women vulnerable to the hazard. There were some few women farmers who
have the knowledge of the impacts of climate change. These women had acquired basic education,
and some of them indicated they received information after they attended some workshops on
climate change. Some of the women farmers have been farming for many years, so through
185
experience they got to know the impacts of drought. Those respondents who indicated that they
knew the impacts seemed to be informed of the dangers of climate change and drought impacts.
Most of the women farmers practised arable farming, there were few farmers who were practising
pastoral farming and mixed farming. Therefore, the results of farmers who lost their livestock due
to drought were affected. From the observations conducted during the study, most of the resettled
women who keep livestock prefer to keep cattle, goats and indigenous chickens. Some of the
women farmers who keep livestock indicated that they lost their livestock. The reason behind the
loss was some of the livestock died and some farmers sold their livestock. Literature suggests that
selling livestock during drought is a common practise, some farmers sell their livestock to buy
food Tau (2015) this supports the results of this study.
From the observations conducted, most farmers in the province were ploughing maize, tobacco,
soya beans and some were involved in market gardening. Drought affected the resettled women,
most of the respondents said they had lost their crops due to drought. These farmers were greatly
impacted by drought because they survive on agriculture, loss of crops means they had to struggle
to feed their families and they will not get income since most of the farmers sell their crops.
Literature shows that the East African region also experienced a drought in 2009, which resulted
in the dying up of rivers and scorching of crops, this gave rise to starvation of millions of people
in Kenya (Howden, 2009). Loss of crops has a serious impact on the province and the country as
well. There is also evidence that in Zimbabwe more than two million people encountered
starvation, this is after a severe drought that affected food harvests (Chingono and Adebayo, 2019).
It was reported that about 5.5 million people in the rural areas of Zimbabwe were affected by
drought during the peak of the hunger season and almost 2.6 million children needed humanitarian
assistance (UNICEF, 2019). The literature shows that resettled women experienced the same
impacts of drought that other regions have experienced. Loss of crops has a negative impact on
the food security of the country and the economy since Zimbabwe is an agriculture-based
economy.
186
The lack or reduction of rain in an area has a great impact on the water sources. Water bodies in
different areas react differently in the event of drought. In Mashonaland Central drought has
affected the level of water in the boreholes. Since borehole water is considered safe for drinking
in rural areas where water purification is hardly practised, it is very risky for people’s health if
borehole water is not available. People are likely to resort to unsafe water sources thus the risk of
experiencing waterborne diseases such as diarrhoea, typhoid and cholera is very high. The
persistence of drought in the area has a negative impact on wells as well. Observations in the areas
of Muzarabani district, Bindura district, Shamva district shows that the water levels in the wells
were very low and some of the wells were dry. Drought has also affected the water levels in rivers
and ponds in the province. Although most of the respondents believed that rivers were not affected
by drought, the observations conducted shows that the level of water in the rivers was very low.
Women farmers are affected directly and indirectly by drought. The resettled women farmers have
recorded financial loss because of drought. The financial losses that these women farmers have
recorded ranges from crop failure, loss of animals, lack of crop insurance and lack of labour. The
majority (30 percent) of the women farmers said that they encountered some financial losses when
their crops died or wilted because of drought. Twenty-three (23) percent of the women farmers
indicated that they experienced some financial losses because they lost their animals. Some of the
animals were sold for a small amount and some of the livestock died. Farmers across the world are
experiencing financial loss because of drought. FAO (2018) reported that there were losses
recorded in the developing world agriculture during 2005 and 2015, the losses countered for $29
billion. Nineteen (19) percent of the respondents indicated that they experienced some financial
losses because they did not have insurance for their crops, livestock and property. Twenty (20)
percent of the respondents encountered financial losses due to inadequate relief funds. These
women emphasised that they made financial losses because they did not receive enough seeds and
fertilizers from the government and other organisations that provide relief. Very few women
farmers connected their financial losses to labour because most the farmers especially the A1
187
farmers do not need extra labour. They can plant and harvest their crops as a family and in few
cases, they would need to hire few people to assist them.
There are mechanisms that should be put in place, so the impacts of hazards and stress are
diminished. One other way is through preparing for the hazard, this is also an effective way of
increasing resilience. Most of the women farmers were not aware of the drought preparedness
strategies. Not knowing drought preparedness strategies means these women do not have
mechanisms or activities to implement in the event of a drought. A drought management plan is
used to inform farmers on the measures that can be taken to minimise the risk associated with
drought impacts. Most of the respondents do not have a personal drought management plan. These
were women farmers who had little knowledge on how to plan for a drought event. Nevertheless,
a few women farmers indicated that they have a drought management plan. A drought management
plan must have all the components of disaster management. Most of the women who indicated that
they have a drought management plan stated that their plans are informal, the plans are not written.
The women indicated that they stocked yields from previous season, and they plant short seasoned
crops. The personal drought management plans drawn by the women farmers were not linked to
many components of the disaster management cycle. Therefore, the plans were not effective even
if they used them.
Most of the respondents said that they were not aware of any drought early warning system. The
findings of the study differ with literature. Jordaan (2012) indicated that drought is normally a
slow-onset phenomenon and therefore it is possible to make some predictions or early warnings.
In this study, most of the participants failed to predict the early warning signs of drought. However,
few respondents had knowledge of drought early warning system. These respondents pointed out
they made use of indigenous knowledge. A few of the respondents said they received information
regarding early warnings of drought through the weather forecast. They can tune in to the radios
and television and they are able to find out about an approaching drought. Experts stated that there
were no early warning systems in place in most areas. The province relies on the metrological
188
department and weather information sent from the nearest stations. When launching drought early
warning and drought monitoring systems, there are some challenges that are likely to be faced
especially in developing countries. The World Metrological Organisation (2006) highlighted that
some of the challenges include insufficient coverage and data quality, the cost of data and decision
makers failing to understand the technical language used in early warning bulletins. Zimbabwe is
facing an economic crisis; therefore, it is difficult for the country to be well advanced in early
warning technologies that give accurate weather information.
It is essential to conduct some awareness campaigns so that the community is informed of the
challenges that they are likely to face, and how they can overcome those challenges. Most of the
resettled women indicated that there are no awareness campaigns in their area. The UN emphasised
the need for public awareness of the impacts of drought and drought risk by improving and
executing training and advocacy programmes (UN, 2014). The resettled women are at great risk
from drought because they do not receive enough awareness. Most of the resettled women are not
involved in drought risk reduction activities. The response by most of the respondents shows that
the women are at great risk of drought because they do not take the responsibility of mitigating
and preparing for drought. The response shows that women farmers do not take responsibility for
minimising the impacts of drought, they rely more on the government and other organisations to
assist them.
6.3.3 Future uncertainties
Future uncertainties are posed by climate change, and to address those uncertainties there must be
some form of adaptive measures that are put in place. The number of women farmers who use
diversity of crops as adaptive strategies are 36 percent. Women farmers in Mashonaland Central
to deal with future uncertainties used crop diversity. Crop diversity gives these women farmers a
variety of choices, they can increase production since the focus is on various crops. The
observations conducted shows that the women farmers were having different crops such as maize,
soya beans, vegetables and sorghum on a single farm. Another adaptive method applied by the
189
resettled women was crop rotation, most of the respondents (56 percent) indicated that they applied
crop rotation methods. Only 2 percent of the women farmers indicated they used irrigation as an
adaptive strategy. The A2 farmers used this method and none of the A1 farmers indicated that they
used this method. Of the participants (6 percent) indicated that they have insurance. Most of the
participants that had insurance were A2 farmers. Having insurance in farming is such an advantage
because when weather related events such as drought strike, the farmer can claim from the
insurance. The resettled women farmers agreed that applying strategies such as diversifying crops,
crop rotation, using improved irrigation systems and having insurance strengthened their resilience
to drought.
6.3.4 Livelihood
The resettled women farmers applied various ways to improve their livelihood, these include
access to markets, having other sources of income, having programmes that advocate for women
empowerment and having other organisations that assist women in farming. Most of the resettled
women farmers had access to good markets. Most of the women farmers sold their produces in
their local markets, to the government and some of the farmers supplied farm produce to
supermarkets. The resettled women can improve their lives and the lives of the community through
selling farm produce.
Most of the resettled women indicated that the community does not have other sources of
employment. The results are in line with literature, the UNDP stated that having a rural household
that depends on agriculture, as the only source of food will affect the livelihood of the people
(UNDP, 2005). A local leader pointed out that the reasons for not having alternative employment
is most of the industries are in large cities and bigger towns. There are few shops available in rural
areas therefore, only a few employment opportunities exist for community members. Even though
most of the resettled women farmers indicated that there are no other sources of employment, few
individuals indicated that there are other sources of employment. These respondents were asked
to state the other sources of employment, the sources included employment as brick moulders,
190
gold panning, fishing, trading, sewing and working as a shop assistant. Most of the employment
mentioned is informal employment since there is a high unemployment rate in Zimbabwe.
Some cultural practises and values will have either a positive or negative effect people’s way of
life. Most of the respondents indicated that no cultural practises and values discriminates women
from farming. The rights of women are being observed, and the resettled women farmers felt that
they gained some respect from the society. Women farmers were not allowed to own any piece of
land, according to cultural practises. During the Fast Track Land Redistribution Programme,
women were allocated their piece of land, therefore some of the cultural practises and values were
dealt with. Most of the respondents did not know of the programmes that advocates for women
empowerment. However, some respondents indicated that there are programmes that advocate for
women empowerment. The resettled women farmers mentioned the following programmes: bread-
making project, detergent-making project, sewing and knitting cooperatives.
Resettled women farmers in Mashonaland Central province made use of various social networks,
these social networks promote drought risk reduction. Network and networking of the resettled
women assisted them in adapting to the drought events. Literature suggested that, social networks
are utilised by people to accomplish their goals and interest (Coleman, 1998). It is in the interest
of the resettled women to minimise the risk of drought; therefore, they are part of social networks.
The resettled women farmers indicated that they make use of the following social networks:
farmers’ organisations, church members, mikando, family networks, political connections and
friends. The farmers indicated that they find emotional support from these networks and sometimes
they can get financial support. The farmers’ organisation safeguards the interest of the farmers and
offer support and assistance to the farmers. They assisted the farmers with information on how to
reduce risk of events such as drought.
Resettled farmers had different views about the ability to get a loan or any financial assistance
from the bank. Most of the resettled women believed that it is possible for a woman to get a loan
from the bank. These women mentioned that banks do not discriminate based on gender, but the
191
bank only wanted collateral security. From the observations conducted during the study, most of
the A2 farmers agreed and strongly agreed that they can get loan. This is probably because they
have valuable assets that can be used as collateral, so it is not difficult for them to get loans. This
is a different case for most of the A1 farmers who are small-scale farmers and most of them lack
some resources. Some of the A1 farmers indicated that their loan applications were rejected by the
banks because they did not have collateral. A government usually offers financial assistance to
farmers during critical times such as a drought event that affects a whole country or some sections
of the country. Most of the respondents (75) do not believe that they are able to get financial
assistance from the government of Zimbabwe. A few numbers of respondents strongly agreed that
the government financially assists women farmers. The researcher further questioned these
respondents and they indicated that they receive financial assistance from the government in the
form of subsidies. The government does not provide loans directly to the farmers, but it will
arrange for guarantees for the loans presented to farmers of oil seeds and grains.
6.3.5 Governance
Most of the respondents revealed that there are not getting support from organisations or
institutions that are supposed to assist women in farming. These women revealed that there a few
organisations are helping women farmers. Most of the women farmers did not get support from
these organisations because the numbers of women who required assistance is very high, therefore,
the organisations are not able to assist all the women farmers. The experts revealed that the
situation is even worse when there is a drought event in the area, the organisation and institutions
do not have the capacity to accommodate most of the women farmers. Some of the resettled women
pointed out that in some situations the women farmers will fail to get the relief from the
organisation because of some corrupt leaders who will steal from the people. There were some
respondents who pointed out that they were getting assistance from NGOs such as the
Development Aid from People to People (DAPP), United Nations Development Programme
(UNDP) and United Nations World Food Programme (WFP). These organisations work with
192
farmers who need assistance. Women farmers receive food aid especially when there is a drought.
From the observations, some organisations were assisting women farmers in Mashonaland Central,
but the number of women farmers outweighs the organisations so most of the resettled women do
not get that assistance.
Most of the respondents indicated they strongly agreed that the government should engage the
community when there are planning for drought risk measures in their area. They believe that if
the government works hand in hand with the community, they will be able to minimise the risk
imposed by drought. Most of the respondents do not think the government have effective
strategies. The reason for not believing that the government is effective is probably because the
women farmers have a bad experience in the past. The government of Zimbabwe is experiencing
some economic challenges and the country lacks some of the resources that can be used to
implement effective drought risk measures. Studies by Dube (2015) and Bongo, (2013), suggested
that Zimbabwe put in place measures to reduce the impacts of disaster. These measures were
influenced by the disaster management continuum and the government of Zimbabwe manages the
national institutions and organisations to examine drought early warnings. The study provides
different results, the resettled women pointed out some challenges they have with governance and
how drought is being managed.
Most of the respondents did not agree that the current legislations, institutions and policies on
climate change and drought in the country are affective. Even if the government has been
formulating these laws and policies, the respondents do not see their effectiveness because they
have not experienced many positive results. The policies that the respondents were familiar of
include the land policy, the new grain policy, the national gender policy and food and nutrition
security for Zimbabwe in the context of economic growth and development. Literature suggests
that appropriate governance is crucial for maintaining and building essential provision to formulate
drought policies and for incorporating drought risk matters into a sustainable development and
193
processes of disaster risk reduction (UNSDR, 2017). Therefore, there is need for good governance
in the country to reduce the risk posed by drought.
6.4 CONCLUSION
The research focused on women who acquired land through the FTLRP, the women farmers who
were resettled under the A1 model and A2 model were the targeted group. The aim of the study
was to develop a climate change induced- drought resilient framework for the resettled women.
The study also focused on the vulnerability and impact of drought on the A1 and A2 women
farmers. The first step of assessing the resilience of the resettled women farmers in Mashonaland
Central province was to examine the vital demographic characteristics. The general findings of the
study showed that it is important to focus on ways that promote resilience to strengthen the
resilience of a community. The Iyengar-sudarshan method was used to calculate the level of
vulnerability for the resettled women using the hazard and stress and future uncertainty variables
per latent variable. The overall vulnerability of the resettled women showed that the women were
vulnerable to drought. This is an indication that resettled women farmers were vulnerable to
drought that was affecting the area. The vulnerability was high because the resettled women
farmers survived on agriculture and drought had caused the farmers to lose their crops and
livestock, therefore they struggled to feed their families. The women farmers also experienced
some financial losses since they experienced crop failure, loss of animals, lack of crop insurance
and lack of labour. Drought caused a severe impact on the water bodies in the province. The
farmers were also vulnerable to drought because there were limited drought awareness campaigns.
There is lack of coordination between the government and the community members. The
government is failed to assist the local government and the community to come up with some
coping capacities. The government lacked on translating drought risk policies into local drought
risk reduction practices. The resettled women felt the government had not yet developed effective
preparedness and mitigation measures. Even though the resettled women encountered challenges,
these women acquired some sort of resilience within them. The resettled women can apply some
194
adaptive strategies such as crop rotation and crop diversity. These women farmers have access to
good markets, they can sell their produce, and they also have social networks such as farmers’
organisations, mikando, and church groups which could assist with financial and emotional
support. The resettled women are independent farmers, they can make decisions that are
agriculture related. In the event of drought, the farmers can benefit from drought relief, they are
able to get support from the government and other local and international organisations.
The indices that were used to determine the fitness of the model of resilience were NNFI, TLI,
RMSEA and GFI index. The resilience model was built using the structural equation modelling
technique. The livelihood variable and governance variable contributed towards resilience in the
structural model. The results of the structural model for resilience proved that the influence of
governance towards resilience is higher than the influence of livelihood towards resilience.
Therefore, if governance is increased, resilience will be impacted positively.
6.5 CONTRIBUTION OF THE STUDY
The primary aim of this study was to develop a unique framework for climate change induced
drought resilience. The study is unique because none of the reviewed literature used the structural
equation model to build resilience of women in farming to drought. The resilience model that exists
show the important variables to observe in measuring resilience. However, none of the models
used the structural model, none of them showed how the variables interact to bring about the
optimal structural model to be used in the development of resilience to drought. Various studies
have been conducted on the resilience of women to disasters globally; however, there is a gap on
the extensive study of strengthening resilience of resettled women. In this study, the researcher
focused on the resilience of women to drought-adverse impacts. The framework was used as a tool
that served, supported and analysed issues that are related to drought resilience of women in
farming. The framework is two-fold in terms of its contribution to science through provision of
useful knowledge on factors that might have impact and contribute to the successful adoption of
drought risk reduction. This accounted for the theoretical contribution of the study and the practical
195
contribution was intended to set an avenue for an understanding of local strategies and innovations
employed by local people in coping with drought events adverse effects. Vulnerability and impact
assessment for the study will assist the government with mobilisation of resources. The findings
of the study will assist the disaster management systems in the country with the aim of
strengthening disaster management interventions. The study, therefore, stands to provide
significant policy recommendations that will contribute to the attainment of resilience building
against adverse effects of drought events.
6.6 RECOMMENDATIONS
Organisations and institutions that assist farmers should be encouraged to give more support to
women farmers. The organisation should be able to identify vulnerable women farmers and assist
them first. Organisations or institutions must be able to work directly with the farmers and manage
the donations and relief packages that they give to farmers to avoid cases of local leaders who are
corrupt and steal from the farmers.
The national drought policy should set up a clear regulated principle to administrate the
management of drought and the associated impacts. The policy should put an emphasis on
management of risk. The policy is supposed to aim toward reducing the risk through developing
better awareness and knowledge of drought hazard as well as the primary causes of community
vulnerability. The policy should also promote an understanding of how remaining proactive and
implementing an extensive variety of preparedness measures will likely escalate community
resilience. So many people, especially the resettled women, do not know the policies, laws and
institutions on climate change and drought. The government should make the farmers aware of
these initiatives so that the farmers abide by the rules of the country.
The government should work closely with the farmers and the local leaders to make sure that the
community abide by the laws and policies of the country. The laws and policies should be effective.
For the government of Zimbabwe to implement drought risk measures, there is need to for the
196
government to have effective early warning system. Early warning systems decrease economic
damages and mitigate the number of people affected by the disaster by presenting information that
will allow farmers to safeguard their lives and their property. The presence of early warning
information encourages the farmers to act prior to a drought event. The government should have
improved and advanced metrological systems so that they will be accurate in weather forecasting.
The presence of effective early warning systems will assist the farmers with information about
forthcoming drought events leading to proper preparation.
The government should engage the community when they are planning for drought risk measure
for that community. Different communities experience things differently, so the measures should
be designed to fit the need of the community. The government should be engaged in the
implementation of disaster risk reduction activities in the community. The government should
assign relevant people who will work closely with the community so that there are effective
preparedness and mitigation measures. The government should make sure that there are transition
warnings as well as connected responses to address all the people, specifically the most vulnerable
people in the community.
There must be collaborations amongst governmental departments, this will promote appropriate
execution of a plan for drought risk reduction. The provincial civil protection department and the
department of agriculture should plan together. The leaders should organise many awareness
campaigns so that the community is informed of the challenges that they are likely to face, and
how they can overcome those challenges. There should be a variety of methods used to raise
awareness campaigns, such as announcements on radios, creating advertisements, road shows and
distributing brochures.
Local leaders should make sure that the women farmers receive training and are educated on issues
related to drought and climate change. Furthermore, increasing productivity enriching
technologies, increasing the access to irrigation technologies will benefit farmers to deal with
drought. The farmers should be encouraged to participate in other forms of livelihood activities
197
that are not related to farming, the farmers will be able to diversify their income and will have a
backup when there is a drought. The farmers should be introduced to new marketing trends like
internet marketing, this will expose the farmers to international buyers and not limiting themselves
to the local market. Civil protection unit and the extension service are required to work close
together. There must be civil protection centres in every province and districts and must be
efficiently managed and their roles and responsibilities must be clarified.
6.7 AREAS FOR FUTURE RESEARCH
Further research on the resilience of resettled women in other areas is needed to widen the scope
of measures and strengthen the resilience of women farmers. The same study should be conducted
with peri-urban and communal farmers who are considered as small-scale farmers who lack some
many resources. Future research works should focus on the relationship between gender and the
level of education of the owner of the farm and their contribution towards the resilience of the
community. Another focus should be on the direct comparison of female-headed and male-headed
households and their contribution towards disaster risk management in the communities.
198
LIST OF REFERENCES
Action Aid. 2008. ActionAid. Horn of Africa Droughts. Available at
http://www.actionaid.org/main.aspx?PageID=1176 Accessed on 23 June 2019.
Action Aid. 2016. Drought in Zimbabwe leaves millions hungry. Available at
http://www.actionaid.org/zimbabwe/2016/03/drought-zimbabwe-leaves-millions-hungry
Accessed on 23 August 2016.
Adenugba, A.O & Raji-Mustapha, N. O. 2013. The role of women in promoting agricultural
productivity and developing skills for improved quality of life in rural areas. IOSR Journal of
Engineering (IOSRJEN) e-ISSN: 2250-3021, p-ISSN: 2278-8719 Vol. 3, pp 51-58
www.iosrjen.org. Agricultural and Rural Productivity Department, National Productivity Centre,
Abuja, Nigeria.
African Risk Capacity, 2016. Strategic Framework 2016-2020. Available at
www.africanriskcapacity.org Accessed on 26 January 2020.
Agri SA. (Agriculture South Africa). 2019. Agriculture drought report for 2018/2019.
Ahearn, M.C & Tempelman, D. 2010. Gender issues in agricultural and rural household well-being
presentation at the third global conference on agricultural and rural household statistics, 24-25
May 2010, Washington, D.C.
Akpan, G. E. 2015). Empowering Women and Youth in Micro and Small-Scale Enterprises
(MSSES) for wealth creation. International Journal of Asian Social Science, 5(2):52-63, DOI:
10.18488/journal.1/2015.5.2/1.2.52.63 ISSN (e):2224- 4441/ISSN (p): 2226.
Alam, M., Bhatia, R., Clinton, H.R. & Mawby, B. 2015. Women and climate change: Impact and
agency in human rights, security, and economic development. Georgetown Institute for Women,
Peace and Security.
199
Alam, M., Bhatia, R. & Mawby, B. 2015. The Georgetown Institute for Women, Peace & Security.
Impact and Agency in Human Rights, Security, and Economic Development.
Alber, G. 2009. Reality and perspectives of climate policy in cities’, in climate change and the
cities of the future: Art, technology and economics in the face of climate change. (eds) K.
Hasselmann, A.R.d. Elvira and M. Welp, European Climate Forum, Potsdam.
Alley, R., Berntsen, T., Bindoff, N. L., Chen, Z., Chidthaisong, A.,Friedlingstein, P., Gregory, J.,
Hegerl, G., Heimann, M., Hewitson, B., Hoskins ,B., Joos, F., Jouzel, J., Kattsov, V., Lohmann,
U., Manning, M Matsuno, T.,Molina, M., Nicholls, N,. Overpeck, J., Qin, D., Raga, G.,
Ramaswamy, V., Ren, J., Rusticucci, M., Solomon, S., Somerville, R., Stocker, T. F.., Stott, P.,
Stouffer, R. J., Whetton, P., Wood, R. A & Wratt, D. 2007. Climate change. The physical science
basis, summary for policymakers. Edited, IPCC Secretariat, c/o WMO, Geneva, Switzerland.
Aniceto, C.O.2005. Poverty, vulnerability and family size: Evidence from the Philippines the
research information staff. Philippine Institute for Development Studies. Discussion paper series
NO. 2005-19.
Anyadike, O. 2016. IRIN. Climate change on the front line, in rural Zimbabwe. Available at
https://www.thenewhumanitarian.org/fr/node/259077 Accessed on 28 March 2018.
Asadoorian, MO. & Kantarelis, D. 2005. Essentials of inferential statistics. 4th edition, University
Press of America, New York, USA.
Austin, W.D. 2008. Drought in South Africa. Lessons lost and or learnt from 1990 to 2005.
University of the Witwatersrand, Johannesburg.
Bahadur, A.V., Ibrahim, M. &Tanner, T. 2010. The resilience renaissance, unpacking of resilience
for tackling climate change and disasters. Strengthening climate resilience discussion paper.
200
Baraki, A. 2019. Green Book. The Impact of Climate Change on Drought. Technical report,
Pretoria: CSIR.
Basher, R. 2006. Global early warning systems for natural hazards: systematic and people
centred. Phil. Trans. R. Soc. A:364 2167-2182.
BBC NEWS, 2017. Reality Check: Are 90% of Zimbabweans unemployed? A vailable at
https://www.bbc.com/news/business-42116932 Accessed on 28 November 2019.
Beisheim, M.2015. Reviewing the Post-2015 Sustainable Development Goals and Partnerships. A
Proposal for a Multi-level Review at the High-level Political Forum. Berlin, Germany
Bekele,S., Kindie, T., Menale,K., Tsedeke,A.B.M.& Prasannac, A.M. 2014. Managing
vulnerability to drought and enhancing livelihood resilience in sub-Saharan Africa: Technological,
institutional and policy options. Available at https://doi.org/10.1016/j.wace.2014.04.004
Accessed on 25 November 2019.
Benson, C., Clay, E., Benson, C & Clay, E. 1998. The impact of drought on sub-Saharan African
economies - a preliminary examination. World Bank technical paper; no. WTP 401. Washington,
D.C. The World Bank. Available at
http://documents.worldbank.org/curated/en/178421468760546899/The-impact-of-drought-on-
sub-Saharan-African-economies-a-preliminary-examination Accessed on 25 July 2019.
Betera, L. 2011. Overview of disaster risk management and vulnerability. Department of Civil
Protection
Bexter, W. 2019. Algezeera. Horn of Africa: Millions suffering due to prolonged drought.
Available at https://www.aljazeera.com/indepth/inpictures/horn-africa-millions-suffering-due-
prolonged-drought-190318055110862.html Accessed on 25 September 2019.
201
Bhattacharjee, D & Wang, J. 2010. Assessment of facility deprivation in the households of the
North Eastern States of India.
Bhavnani, R., Vordzorgbe, S., Owor, M & Bousquet, F. 2008. Report on the status of disaster risk
reduction in the Sub-Saharan Africa Region. Commission of the African Union, United Nations
and the World Bank. Available at:
http://www.unisdr.org/files/2229DRRinSubSaharanAfricaRegion. Accessed on 29 August 2016.
Bongo, P.P., Chipangura, P., Sithole, M & Moyo, F.2013. Dynamics of configuring and
interpreting the disaster risk script: Experiences from Zimbabwe National University of Science
and Technology, Zimbabwe. Jamba: Journal of Disaster Risk Studies, Volume 5, Issue 2, Jan
2013, p. 1 – 10
Bowen, G. A. 2009. Document analysis as a qualitative research method. Qualitative Research
Journal, 9, 27-40. http://dx.doi.org/10.3316/QRJ0902027
Brazier, A. 2015. Climate Change in Zimbabwe. Facts for Planners and Decision Makers. Harare,
Zimbabwe.
Bretan, E & Engle, N.L. 2017. Drought preparedness policies and climate change adaptation and
resilience measures in Brazil: An institutional change assessment.
Brink, H.I. 2006. Fundamental of research methodology for health care professional. 2nd edition.
Cape Town. South Africa.
Brody, A., Demetriades, J. and Esplen, E. (2008), Gender and climate change: mapping linkages.
A scoping study on knowledge and gaps, prepared for the UK Department for International
Development, BRIDGE, Institute of Development Studies (IDS), UK.
202
Brooks, N., Aure, E. & Whiteside, M. 2014. Final report: Assessing the impact of ICF
programmes on household and community resilience to climate variability and climate change,
Evidence on Demand, UK.
Brown, D., Rance Chanakira, R., Chatiza, K., Dhliwayo, M., Dodman, D., Masiiwa, M.,
Muchadenyika, D., Prisca Mugabe, P. and Zvigadza, S. 2012. Climate change impacts,
vulnerability and adaptation in Zimbabwe. IIED Climate Change Working Paper No. 3.
Brown, S., 2014. SHEAR: Early warning systems and risk assessment case studies. Practical
Action Consulting.
Bruneau, M., Chang, S.E., Eguchi, R.T., Lee, G.C., O'Rourke, T.D., Reinhorn, A.M., Shinozuka,
M., Tierney, K., Wallace, W.A & Winterfeldt, D. 2003. A Framework to Quantitatively Assess
and Enhance the Seismic Resilience of Communities. Volume 19.
https://doi.org/10.1193/1.1623497
Bruschweiler, S. & Gabathuler, E. 2006. Coping with Drought. Centre for Development and
Environment. Bern, Switzerland.
Bryman, A. & Cramer, D. 1997. Quantitative data analysis with SPSS for windows: A guide for
social scientists. London: Routledge.European Scientific Journal June 2015 edition vol.11, No.18
ISSN: 1857 – 7881 e - ISSN 1857- 7431
Burns, SN & Grove, SK. 2003. Understanding nursing research. 3rd edition. Philadelphia,
Saunders.
Buurman, J., Dahm, R. & Goedbloed. A. 2014. Monitoring and early warning systems for
droughts. Lessons from floods. Environmental engineering, National University of Singapore.
Byrne, B.M. 1994. Structural equation modelling with EQS and EQS/Windows - Basic Concepts,
Applications and Programming. SAGE Publications.
203
Byrne, B.M. 2013. Structural equation modelling with AMOS: basic concepts, applications, and
programming. Routledge, New York.
CADRI (Capacity for Disaster Reduction Initiative). 2017. Capacity assessment of the disaster
risk management system in Zimbabwe.
Campbell. H. 2003. Reclaiming Zimbabwe: The exhaustion of the patriarchal model of liberation.
Claremont. David Philip Publishers.
Castillo, V. 2009. Brief note on the Inter-Regional workshop on indices and early warning systems
for drought 8-11 December 2009. Lincoln, Nebraska U.S.A. Available at
http://www.unccd.int/publicinfo/wmo/docs/ Final%20Nebraska%20report.pdf. Accessed on 25
September 2019.
Chae, H.M., Lee, S &Um, G.J. 2012. The effects of drought on forest and forecast of drought by
climate change in Gangwon region. ISSN 2287-2396 Journal of Forest Science Climate Change
Research Institute of Korea. Republic of Korea.
Chagutah, T. 2010. Climate change vulnerability and adaptation preparedness in Southern Africa:
Zimbabwe country report
Chambers, R. & Conway, G. 1991. Sustainable rural livelihoods: Practical Concepts for the 21st
Century. Available at http://www.smallstock.info/reference/IDS/dp296.pdf Accessed on 25 June
2018.
Chen, J., Shirkey, G., John, R., Wu, S.R., Park.H & Shao, C. 2016. Applications of structural
equation modelling (SEM) in ecological studies: an updated review.
https://doi.org/10.1186/s13717-016-0063-3
Chenje, M & Johnson, P. 2014. State of the Environment in Southern Africa. Publisher: Southern
African Research
204
Chingono, M & Adebayo, B. 2019. Millions in Zimbabwe facing starvation after severe droughts.
Available at https://edition.cnn.com/2019/08/07/africa/zimbabwe-millions-starvation-
intl/index.html Accessed on 25 September 2019.
Chitongo, L. 2013. The contribution of NGO’s to rural development: The case of Catholic Relief
Services Protecting Vulnerable Livelihoods Programme in Zimbabwe. Asian Journal of
Management Science and Education. Leena and Luna International, Oyama, Japan.
Chiremba, S & Masters, W. 2003. Assessment and suggested framework for the future. Interim
Mission Report.
Chivasa, W., Mutanga, O & Biradar, C.M. 2019. Mapping land suitability for maize (Zea mays
L.) production using GIS and AHP technique in Zimbabwe. South African Journal of Geomatics,
Vol. 8. No. 2DOI: 10.4314/sajg. v8i2.11
Christensen, J.H., Hewitson, B., Busuioc, A., Chen, A., Gao, X., Held, R., Jones, R., Kolli, R.K.,
Kwon, W.K., Laprise, R., Magana Rueda, V., Mearns, L., Menendez, C.G., Räisänen, J., Rinke,
A., Sarr, A., Whetton, P., Arritt, R., Benestad, R., Beniston, M., Bromwich, D., Caya,D., Comiso,
J., de Elia, R & Dethloff, K. 2007. Regional climate projections: The Physical Science Basis.
Contribution of Working group I to the Fourth Assessment. Report of the Intergovernmental Panel
on Climate Change. University Press, Cambridge.
Chmielewski, F.M & Rötzer, T. 2002. Annual and spatial variability of the beginning of growing
season in Europe in relation to temperature changes. Climate research 19:257-264. DOI:
10.3354/cr019257
Clark, A., Mullan, B. & Porteous, A, 2011. June. Scenarios of Regional Drought under Climate
Change. NIWA. Client report. WLG2010-32. Prepared for ministry of Agriculture and forestry.
205
Clay E., Bohn L., de Armas, S., Kabambe, S & Tchale H. 2003. Malawi and Southern Africa:
climatic variability and economic performance. Disaster risk management working paper series
7. World Bank, Washington D.C., United States of America.
Clement, M. 2018. Gender gap in bank account ownership has not shifted in seven years. Women’s
advancement deeply. Available at
https://www.newsdeeply.com/womensadvancement/articles/2018/04/19/gender-gap-in-bank-
account-ownership-hasnt-shifted-in-seven-years Accessed on 26 May 2018.
Climate Reality Project, 2016. 2016 Annual report. Available at
https://www.climaterealityproject.org/sites/climaterealityproject.org/files/2016 Accessed on 20
November 2019
Collier, P., Conway, G. & Venables. 2008. Climate change and Africa. Oxford Review of
Economic Policy, Volume 24, Issue 2, summer 2008, Pages 337–353,
https://doi.org/10.1093/oxrep/grn019
Combaz, E. 2014. Disaster resilience: Topic guide. Birmingham, UK: GSDRC, University of
Birmingham.
Connolly, L., Coning, C. & Carvalho. 2014. Creating an enabling peacebuilding environment.
How can external factors contribute to resilience? Available at
https://www.accord.org.za/publication/creating-an-enabling-peacebuilding-environment/
Available on 25 April 2018.
Corbin, J., & Strauss, A. 2008. Basics of Qualitative Research: Techniques and Procedures for
Developing Grounded Theory 3rd ed. Thousand Oaks, CA: Sage.
Coast Adapt, 2017. Global climate change and sea-level rise. Available at
https://coastadapt.com.au/global-climate-change-and-sea-level-rise Accessed on 18 June 2020.
206
(CRED) Centre for Research on the Epidemiology of Disasters. 2012. Annual disaster statistical
review 2011. The numbers and trends. Ciaco Imprimerie, Louvain-la-Neuve, Belgium.
Creswell, J. W. 2013. Research design: Qualitative, quantitative, and mixed methods approaches.
Sage Publications, Incorporated.
Creswell, J. W., & Clark, V. L. P. 2007. Designing and conducting mixed methods research. Sage
Publications, Inc.
Creswell, J.W., Shope, R., Plano, V.L., Clark. & Green, D.O. 2006. How interpretive qualitative
research extends mixed methods research.
Creswell, J. W., & Plano Clark, V. L. 2015. Designing and conducting mixed methods research
(2nd ed., Y. Dede, & S. B. Demir, Trans. Eds.). Ankara, Turkey: Anı Yayıncılık.
Crossman, A. 2018. Different types of sampling designs in sociology and how to use them: An
overview of probability and non-probability techniques. Thought Co. Available at
https://www.thoughtco.com/sampling-designsused-in-sociology-3026562 Accessed on 29 August
2019.
Cunningham, C., Cunha, A. P., Brito, S., Marengo, J., & Coutinho, M. 2017. Climate change and
drought in Brazil. In Marchezini, B., Wisner, B., Londe, L.R & Saito, S.M. (Eds). Reduction of
vulnerability to disasters. From knowledge to action. (pp. 361-375). Sao Carlos, Brazil: Editora
RiMa.
Cutter, S.L., Barnes,L., Berry,M., Burton, C., Evans, E., Tate,E. & Webb, J. 2008. A place-based
model for understanding community resilience to natural disasters. Global Environmental
Change. Vol.18, Issue 4:598–606.
Dai, A. 2011. Drought under global warming: A review. WIREs climate change.
207
Dai, A. 2013. Increasing drought under global warming in observations and models. Nat. Climate
change, 3, 52–58, doi:https://doi.org/10.1038/nclimate1633.
Dai, A., Luo, D., Song, M & Liu, J. 2019. Arctic amplification is caused by sea-ice loss under
increasing CO2.
Dankelman, I. 2012. Women-make-a-difference-climate-change-impacts-on-human-security.
Available at http://www.fokuskvinner.no/no/Forsiden/Konferanser/Rio-20/Women-make-a-
difference-climate-change-impacts-on-human-security/ Accessed on 29 August 2019.
Dattaro, L. 2015. VICE News 29 August. How Climate Change Impacts Women the Most.
Availaible at https://news.vice.com/article/how-climate-change-impacts-women-the-most.
Accessed on 29 August 2016.
DEAT (Department of Environmental Affairs and Tourism). 2009. Climate Change. Department
of Environmental Affairs. Available at http://www.soer.deat.gov.za/43.html Accessed on 23 June
2019.
Deininger, K., Hoogeveen, J.G. & Kinsey, B. 2004. Economic benefits and costs of land
redistribution in Zimbabwe in the early 1980s. World Development 32(10):1697-1709. DOI:
10.1016/j.worlddev.2004.06.006.
De Vos, A., Strydom, H., Fouche, C. & Delport, C. 2011. Research at Grass Roots: For Social
Sciences and Human Services Professions. Van Schaik Publishers, Pretoria.
Development Co-operation Report, 2016. OECD. The Sustainable Development Goals as
Business Opportunities
DFID (Department of International Development). Defining disaster resilience: A DFID
Approach Paper. /Practical Action.
208
Diiro, G.M., Seymour. G., Kassie, M., Muricho, G & Muriithi, B.W. 2018. Women's
empowerment in agriculture and agricultural productivity: Evidence from rural maize farmer
households in western Kenya. doi: 10.1371/journal.pone.0197995.
Dodman, D. S. 2016. Institutional capacity, climate change adaptation and the urban poor.Volume
39 Number 4, Available at https://doi.org/10.1111/j.1759-5436.2008.tb00478.x Accessed on 20
May 2020.
Doss, C. 2013. Intra household bargaining and resource allocation in developing countries. The
World Bank Research Observer 28 (1), pp 52-78. Oxford University Press
Dube, E. 2015, Improving disaster risk reduction capacity of District Civil Protection Units in
managing veld fires: A case of Mangwe District in Matabeleland South Province, Zimbabwe,
Jàmbá: Journal of Disaster Risk Studies. http://dx.doi.org/10.4102/jamba.v7i1.143
Dunne, D. 2019. Climate reality project. Climate change. Available at
https://www.climaterealityproject.org/blog/facts-about-climate-change-and-drought Accessed on
25 August 2019.
Dzebo, A., Janetschek, H., Brandi,C & Iacobuta, G. 2019. Connections between the Paris
Agreement and the 2030 Agenda The case for policy coherence Working Paper.
Ellis, A.,Manuel, C & Blackden, M.C. 2005. Gender and economic growth in Uganda: Unleashing
the power of women. World Bank Publications.
EMA (Environmental Management Agency). 2014. Mashonaland Central province. Zimbabwe.
EM-DAT, 2011. The OFDA/CREDA International disaster database. Universite catholique de
Louvain. Brussels, Belgium.
209
Engelbrecht, F.A., McGregor, J.L., & Engelbrecht, C.J. 2008. Dynamics of the Con formal cubic
atmospheric model projected climate-change signal over southern Africa. International Journal
Climatology
Ensor, J. 2011. Uncertain Futures: Adapting development to a changing climate. Practical Action
Publishing, Rugby.
ERCC (Emergency Response Coordination Centre). 2019. Southern Africa drought situation. DG
ECHO Daily Map. Available at https://reliefweb.int/map/zimbabwe/southern-africa-drought-
situtation-emergency-response-coordination-centre-ercc-dg-echo Accessed on 29 September
2019.
EPICURO (European Partnership for Innovative Cities within an Urban Resilience Outlook).
2018. European partners of urban resilience. Best practises analysis.
EU (European Union). 2013. Adaptation Policy in the EU – An Overview. Available at
https://climatepolicyinfohub.eu/adaptation-policy-eu-–-overview Accessed on 28 November
2019.
FAO (Food and Agriculture Organisation). 2011 Women in Agriculture. Closing the gender gap
for development – 2010 – 2011.
FAO (Food and Agricultural Organization). 2005. Gender and land compendium of country
studies, Gender and Natural Resource Management. Rome. Italy.
FAO (Food and Agriculture Organisation). 2013. The state of food and agriculture. ISSN 0081-
4539 Rome, Italy.
FAO (Food and Agriculture Organization). 2014. The State of Food and Agriculture. Rome. Italy.
210
FAO (Food and Agriculture Organization), 2017. The future of food and agriculture: Trends and
challenge. United Nations Rome. Available at http://www.fao.org/3/a-i6583e.pdf Accessed on 25
November 2019.
FAO (Food and Agriculture Organization0. 2017. The impact of disasters and crises on agriculture
and food security. Rome, 2018. 2017
FAO (Food and Agriculture Organization of the United Nations). 2018. Migration, agriculture
and rural development. Food and agriculture the state. Rome, Italy.
FAO (Food and Agriculture Organisation). 2019. El Niño response plan for Southern Africa -
Zimbabwe. ReliefWeb. Available at https://reliefweb.int/report/zimbabwe/fao-2019-
humanitarian-appeal-201819-el-ni-o-response-plan-southern-africa Accessed on 29 September
2019.
FAO (Food and Agriculture Organisation) & UNICEF (United Nations International Children
Fund). 2019. Child labour in agriculture. The demand sides.
FIDA (Federation of Women Lawyers). 2009. Women's land and property rights in Kenya.
Women's Land.
Fullera, R & Lainb, R. 2017. Are female-headed households less resilient? Evidence from Oxfam’s
impact evaluations.
Frank, M & Chmielewski, T.R. 2000. Annual and spatial variability of the beginning of growing
season in Europe in relation to temperature changes. Climate Research. DOI: 10.3354/cr019257.
Frankenberg E., Sikoki B., Sumantri C., Suriastini W & Thomas D. 2013. Education, vulnerability,
and resilience after a natural disaster. Ecology Society.
211
Freund, M., Henley, B., Allen, K. & Baker. P. 2018. Recent Australian droughts may be the worst
in 800 years. Available at http://theconversation.com/recent-australian-droughts-may-be-the-
worst-in-800-years-94292 Accessed on 20 April 2018.
Gallagher, M.W & Timothy, A & Brown, T. 2013. Confirmatory factor analysis and structural
equation modelling. Handbook of Quantitative Methods for Educational Research pp 289-314
Ganter, R. 2015. Women and resilience. Available at http://www.rosegantner.com/women.htm
Accessed on 25 November 2019.
Gautam, M. 2006. Managing drought in Sub-Saharan Africa: Policy perspectives. Africa region
The World Bank Washington, D.C.
GDO (Global Drought Observatory). 2019. Report on Mashonaland Central, Zimbabwe. Available
at http://edo.jrc.ec.europa.eu/gdo/php/index.xphp?id=2022&lon=30.83135466547&lat=-
17.327103877484&refDate=2019-04-11&ndx=RDrl Accessed on 20 September 2019.
Geraldine, T. 2009. No climate justice without gender justice: an overview of the issues, Gender
& Development, 17:1, 5-18, DOI: 10.1080/13552070802696839.
Giorgi, F., Jones, C, & Asrar, G.R. 2009. Addressing climate information needs at the regional
level: the CORDEX framework. Organization (WMO) Bulletin.
Glantz, M. H., Betsill, M. & Crandall, K. 1997. Food Security in Southern Africa. Assessing the
Use and value of ENSO Information. Available at http://www.isse.ucar.edu/sadc.html Accessed
on 29 September 2019.
Gliem, J.A & Gliem, R.R. 2003. Calculating. Interpreting, and Reporting Cronbach’s Alpha
Reliability Coefficient for Likert-Type Scales. Midwest Research to Practice Conference in Adult,
Continuing, and Community Education.
212
Goldberg, L.G. 2019. Drought in the Horn of Africa is threatening 15 Million People. Available
at https://www.undispatch.com/drought-in-the-horn-of-africa-is-threatening-15-million-people/
Accessed on 29 September 2019.
GoZ (Government of Zimbabwe). 2000. Land settlement Act 2000. Harare, Government printers.
GoZ (Government of Zimbabwe). 2014. Ministry of Agriculture Mechanization and Irrigation
Development. Available at http://www.lands.gov.zw/home/about-the-ministry Accessed on 28
November 2019.
Gundu, M. 2009. The effective of literacy on access to and utilizing of agricultural information for
household food security at Chirau communal lands in Zimbabwe. Unpublished Master‟s thesis.
University of Fort Hare
Hansen, J., Dilley, M., Goddard, L., Ebrahimian, E.& Ericksen, P. 2004. Climate Variability and
the Millennium Development Goal Hunger Target. Earth Institute, Columbia. International
research institute for climate and society. IRI Technical Report 04-04.
Heale, R., & Forbes, D. 2013. Understanding triangulation in research. Evidence Based Nursing.
16, 98. doi:10.1136/eb-2013-101494.
Hailey, J. 2006. NGO leadership development: A review of the literature. Praxis Paper 10.
Hellmuth, M., Moorhead, A., Thomson, M.C & Williams, J. 2007. Climate risk management in
Africa: Learning from practice. Edition: 1stPublisher: International Research Institute for Climate
and Society (IRI), Columbia University, New York, USA. Editor: Climate and Society No 1ISBN:
ISBN 978-0-9729252-3-5
Hooper, D., Coughlan, J & Mullen, M. 2008. Equation Modelling: Guidelines for Determining
Model Fit. The Electronic Journal of Business Research Methods Volume 6 Issue 1 2008, pp. 53-
213
60, available online at www.ejbrm.com. R. ISSN 1477-7029 53 ©Academic Conferences Ltd
Structural
Hlalele, B.M. 2019. Iyengar-sudarshan method application to drought social vulnerability: Free
State Province, South Africa. Eco. Env. & Cons. 25 (3); pp. (1473-1479) EM International ISSN
0971–765X.
Howden, D. 2009. The Independent - Africa. Available at http://www.independent.co.uk/news/
world/africa/the-greatdrought-disaster-looms-in-east-africa-1797003.htm Accessed on 23 June
2019.
Hoyle, R.H 2011. Structural equation modelling for social and personality psychology. Sage,
London
Human Rights Watch. 2002. Fast track land reform in Zimbabwe. Vol. 14, No. 1.
Ibrahim, M & Ward, N. 2012. From Vulnerability to Resilience: A handbook for programming
design based on field experience in Nepal. Practical action.
IPCC (Intergovernmental Panel on Climate Change). 2001. The IPCC Third Assessment Report
Climate Change.
IPCC (Intergovernmental Panel on Climate Change). 2007 Climate Change 2007: Working Group
II: Impacts, Adaptation and Vulnerability, IPCC Fourth Assessment Report. Available at
http://www.ipcc.ch/publications_and_data/ar4/wg2/en/ annexessglossary-e-o.html. Accessed on
20 June 2019.
IPCC (Intergovernmental Panel on Climate Change). 2012. Summary for Policymakers,
in managing the risks of extreme events and disasters to advance climate change
adaptation. A Special report of working groups I and II of the Intergovernmental Panel on
214
climate change, Cambridge University Press: Cambridge, United Kingdom and New
York, NY, USA.
IPCC (Intergovernmental Panel on Climate Change). 2014. Climate Change 2014: Synthesis
Report. Contribution of Working Groups I, II and III to the fifth assessment report of the
Intergovernmental Panel on Climate Change. Pachauri, R.K & Meyer, L.A (eds.)]. IPCC, Geneva,
Switzerland, 151 pp.
IPCC (Intergovernmental Panel on Climate Change). 2018. Special Report on the impacts of global
warming of 1.5°C. Summary for Policymakers. Switzerland.
Jackson School of Geosciences. 2009. Jackson School of Geosciences. University of Texas at
Austin. Available at www.jsg.utexas.edu/news/rels/041609.html Accessed on 23 June 2019.
James, R., and R. Washington, 2013: Changes in African temperature and precipitation associated
with degrees of global warming. Climatic Change. 117, 859–872, Available at
https://doi.org/10.1007/s10584-012-0581-7 Accessed on 20 July 2019.
Jerneck, A. & Osson, L. 2008. Adaptation and the poor: development, resilience and transition.
Johnson, S.P. 2002. The nature of cognitive development. Department of Psychology, Uris Hall,
Cornell University, Ithaca, NY 14850, USA.
Jordaan, A.J., Sakulski, D & Jordaan, A.D. 2011. Drought Risk Assessment for Northern Cape
Province. Department of Agriculture and Rural Development. Kimberley. South Africa.
Jordaan, J.A. 2012. Drought risk reduction in the Northern Cape, South Africa. PhD thesis, Faculty
of natural science and agriculture, University of the Free State.
July, J. H. 2006. NGO leadership development; a review of the Literature. Praxis Paper 10
Kameri-Mbote, P. 2006. Women, land rights and the environment: The Kenyan experience
September 2006 Development. 49(3):43-48 DOI: 10.1057/palgrave.development.1100274.
215
Karim, M.R, & Rahman, M.A. 2015. Drought risk management for increased cereal production in
Asian Least Developed Countries. Weather and climate extremes. Volume 7, pages 24-35.
Elsevier.
Karla, D & Maass, W. 2013. Coping with the food and agriculture challenge: smallholders’
agenda preparations and outcomes of the 2012 United Nations conference on sustainable
development (Rio+20). Natural resources management and environment department Food and
Agriculture Organization of the United Nations, Rome.
Keating, A., Campbell, K., Szoenyi, M., McQuistan, C., Nash, D. & Burer. 2016. Development
and testing of a community flood resilience measurement tool.
Kinsey, B.H. 1999. Land Reform, Growth and Equity: Emerging Evidence from Zimbabwe's
Resettlement Programme. Journal of Southern African Studies, Volume 25, 1999 - Issue 2.
Kivaria, K. 2007. Pastoral coping mechanism to drought and floods. Field report. Nairobi, Kenya.
Klein, R.J.T., Nicholls, R.J & Mimura, N. 1999. Adaptation strategies for global change. Coastal
adaptation to climate change: can the IPCC Technical Guidelines be applied. Springer.
Kline, R.B. 2010. Principles and practice of structural equation modelling. Guilford Press, New
York.
Klopper, E. and Bartman, A. 2003. Forecasts and commercial agriculture: a survey of user needs
in South Africa, in O'Brien, K. and Vogel, C. (eds.), coping with Climate Variability. The Use of
Seasonal Climate Forecasts in Southern Africa, Ashgate Studies in Environmental Policy and
Practice, Hampshire, England, pp. 170–182.
Knutson, C., Hayes, M. & Phillips, T. 1998. How to reduce drought risk. Preparedness and
mitigation working group. National Drought Mitigation Centre, US, Lincoln.
216
Kristjanson, P., Bernier, Q., Brayan, E., Ringler, C., Meinzen-Dick, R., Ampaire, E., Kovarik, C.,
Haglund,C., Quiros, C., Herrero, M., Rufino, S., Silvestri,P. & Van Asten, P. 2015. UFPRI
(International Food Policy Research Institute). 2015. Gender and climate change adaptation in
Uganda. Insight from Rakai project.
Kuhudzayi, B & Mattos, D. 2018. Cornhusker Economics. A Model for Farmer Support in
Zimbabwe - Opportunity for Change.
Kumar, N. S., Solmon, P.K. and Vishnu-Sankar, R.D. 2014. Assess the vulnerability of climate
change in Krishna river basin of Andhra Pradesh. International Journal of Development Research.
4(5): 1059-1061.
Kurukulasuriya, P. & Mendelsohn, R. 2008. Crop switching as an adaptation strategy to climate
change, African Journal Agriculture and Resource Economics, 2, pp. 105–126.
Lanjouw, P., Quizon, J., & Sparrow, R. 2001. Non-agricultural earnings in peri-urban areas of
Tanzania: Evidence from household survey data. Food Policy, 26(4), 385–403.
https://doi.org/10.1016/S0306-9192 (01)00010-0
Lavrakas, P.J. 2008. Encyclopaedia of survey research methods. Sage Publications, Inc., Thousand
Oaks.
Lee S. 2012. Extreme drought and sustainable water resources on climate change. Korean.
Leedy, P.D & Ormond, J.E. 2010. Practical Research: Planning and Design (9th ed). New York,
USA.
Levine, S. Ludi, E. & Jones, L. 2011. Rethinking Support for Adaptive Capacity to Climate
Change. The role of development interventions. ODI/ACCRA Report.
217
Little, P.D., Stone, M.P., Mogues, T., Castro, A.P. & Negatu, W. 2006. Moving in Place’: Drought
and Poverty Dynamics in South Wollo, Ethiopia. Journal of Development Studies, 42 (2), 200-
225.
Maas, W. 2013. Coping with the food and agriculture challenge: smallholders’ agenda. FAO.
Madhuku, L. 2004. Law, Politics and the Land Reform Process. In Masiyiwa, S. 2004. Post-
Independence Land Reform in Zimbabwe: Controversies and Impact on the Economy. Harare:
Friedrich Ebert Stiftung and Institute of Development Studies.
Madzwamuse, M. (2010). Climate governance in Africa: adaptation strategies and institutions. A
synthesis report prepared for the Heinrich Boll Foundation. Available at
http://www.boell.org.za/downloads/Climate_Governance_in_Africa Accessed on 25 September
2019.
Madzamuswe, H. 2014. Climate change trends and projections in Zimbabwe Pretoria: Rhodes
University Press.
Manjengwa, J., Matema, F., Mataruka, J., Tirivanhu, D., Tamanikwa, M. and Feresu, S. 2014.
Children and Climate Change in Zimbabwe. Available at
https://www.unicef.org/zimbabwe/Children_and_Climate_Change_in_Zimbabwe Accessed on 25
August 2019.
Manyeruke, C., Hamauswa, S. and Mhandara, L. 2013. The effects of climate change and
variability on food security in Zimbabwe. A Socio-economic and political analysis. International
Journal of Humanities and Social Science Vol. 3 No. 6 [Special Issue – March 2013]: 270-286.
Marengo, J.A., Alves, L.M., Alvala, R.C.S., Cunha, A.P., Brito, S. & Moraes, O.L.L. 2017.
Climatic characteristics of the 2010-2016 drought in the semiarid Northeast Brazil region.
Cachoeira Paulista, SP, Brazil.
218
Marongwe, N. 2012. Rural women as the invisible victims of militarised political violence: the
case of Shurugwi district, Zimbabwe, 2000-2008. PhD thesis, University of the Western Cape.
Masih, I., Maskey, S., Mussa,F.E.F & Trambauer, P. 2014. A review of droughts in the African
continent: a geospatial and long-term perspective. Hydrology and Earth System Sciences. DOI:
10.5194/hessd-11-2679-2014.
Masendeke, S & Shoko, K. 2013. Drought coping strategies and their effectiveness: The case of
Ward 12 in Mberengwa District Zimbabwe. DOI:10.11114/ijsss. v2i1.299.
Masendeke, S & Shoko. K. 2014. Drought Coping Strategies and Their Effectiveness: The Case
of Ward 12 in Mberengwa District Zimbabwe. International Journal of Social Science Studies,
2014, vol. 2, issue 1, 137-152
Mavhura, E. 2016. Disaster legislation: A critical review of the civil protection act of Zimbabwe.
Natural hazards 80 (1), 605-621.
Mazwi, F., Chemura, A., Mudimu,G.T & Chambati, W. 2019. Political economy of command
agriculture in Zimbabwe: A State-led Contract Farming Model. Available at
https://doi.org/10.1177/2277976019856742 Accessed on 28 November 2019.
Monnik, K. 2000. Role of drought early warning systems in South Africa's evolving drought
Policy. RC Institute for Soil, Climate and Water, Pretoria, South Africa.
Mosley, L.M., Zammit, B., Leyden, E., Heneker, T.M., Hipsey, M.R., Skinner, D. & Aldridge,
K.T. 2012. The Impact of Extreme Low Flows on the water quality of the lower Murray river and
lakes South Australia. Water Resources Management. 26: 3923–3946.
Moyo, Sam. 2004. Overall impacts of the fast track land reform programme. AIAS Monograph
Series 02/2004. Harare: AIAS.
219
Mukeredzi, T. 2016. Climate migration. Drought hunger push farmers to greener pastures.
Available at https://www.reuters.com/article/us-zimbabwe-climate-migration/zimbabwe-drought-
hunger-push-farmers-to-seek-greener-pastures-idUSKBN1420IN Accessed on 25 August 2019.
Musarurwa, C & Lunga, W 2012. Climate change mitigation and adaptation: threats and
challenges to livelihoods in Zimbabwe. Asian Journal of Social Sciences and humanities Vol. 1.
No. 2 pp. 25-32. Zimbabwe.
Musemwa L (2011). Economics of Land Reform Models used in Mashonaland Central Province
of Zimbabwe. Unpublished. PhD Thesis. University of Fort Hare, Alice, South Africa.
Mushore, D. T., Muzenda/Mudavanhu, C. & Makovere, T. 2013. Effectiveness of drought
mitigation strategies in Bikita District, Zimbabwe. International Journal of Environmental
Protection and Policy. 1(4), pp. 101-107.
Musinguzi, L., Natugonza, V., Efitre, J., & Ogutu-Ohwayo, R. 2017. The role of gender in
improving adaptation to climate change among small-scale fishers. Climate and development.
https://doi.org/10.1080/17565529.2017.1372262.
Muswazi,M.T &Nhamo, E. 2013. Note taking: A lesson for novice qualitative researchers. IOSR
Journal of Research & Method in Education: 2320–7388, Volume 2, Issue 3.
Mutasa, M. 2010. Zimbabwe’s drought conundrum: vulnerability and coping in Buhera and
Chikomba districts. Department of International Environment and Development Studies
(Noragric) Norwegian University of Life Sciences (UMB).
Mutingwende,B.A. 2017. Partnerships critical in alleviating hunger. Available at
https://spiked.co.zw/partnerships-critical-in-alleviating-hunger/ Accessed on 30 June 2019.
220
Muttarak, R & Lutz, W. 2014. Is education a key to reducing vulnerability to natural disasters and
hence unavoidable climate change? Ecology and Society 19(1): 42. http://dx.doi.org/10.5751/ES-
06476-190142
Nangombe, S.S. 2012. Meteorological Services Department. Drought conditions and management
strategies in Zimbabwe. Harare, Zimbabwe.
Narkhede, S. 2018. Understanding descriptive statistics. Available at
https://towardsdatascience.com/understanding-descriptive-statistics-c9c2b0641291 Accessed 23
March 2020.
NBC NEWS, 2010. Future droughts will be shockers, study says. Available at
http://www.nbcnews.com/id/39741525/ns/us_news-environment/t/future-drought-will-be-
schockers-study-says/ Accessed on 25 March 2019.
NCAR (National Centre for Atmospheric Research. 2010. Climate change may threaten much
globe within decades. Available at https://www2.ucar.edu/atmosnews/news/2904/climate-change-
may-threaten-much-globe-within-decades. Accessed on 25 March 2019.
Ncube, B. 2017. Coping and adaptation strategies for agricultural water use during drought
periods. Water Research Commission, South Africa, Report No KV 363/17. May 2017. ISBN 978-
1-4312-0925-5.
Ncube, A., Mangwaya, P.T. & A. A. Ogundeji, A.A. 2018. Assessing vulnerability and coping
capacities of rural women to drought: A case study of Zvishavane district, Zimbabwe.
International Journal of Disaster Risk Reduction 28(1):69-79. Available at
https://www.sciencedirect.com/science/article/pii/S2212420918302061 Accessed on 25
November 2019.
221
Neal, M., Hammer, L., & Morgan, D. 2006. Using mixed methods in research related to work and
family. In M. Pitt-Cassouphes, E. Kossek, & S. Sweet (Eds.). The work and family handbook:
Multidisciplinary perspectives and approaches. Mahwah, NJ: Lawrence Erlbaum.
Nelson, G.C & Shively, G.E. 2013. Modelling climate change and agriculture: an introduction to
the special issue https://doi.org/10.1111/agec.12093
NEPAD (New Partnership for Africa's Development). 2013. Agriculture in Africa: Transformation
and outlook. Available at https://www.un.org/en/africa/osaa/pdf/pubs/2013africanagricultures.pdf
Accessed on 25 September 2019.
Neumayer, E. & Plümper, T. 2007. The gendered nature of natural disasters: the impact of
catastrophic events on the gender gap in life expectancy, 1981-2002. Annals of the Assoc. of
American Geographers.
Ngalame, N. 2015. Commercial rice farming cushions Cameroon women from climate stress.
Thomson Reuters Foundation. Available at http://news.trust.org/item/20151016091510-ny1dw/
Accessed on 25 September 2019.
Ngoepe, M. (2008) An Exploration of Records Management Trends in the South African Public
Sector: A Case Study of the Department of Provincial and Local Government, Pretoria, South
Africa, University of South Africa.
Njaya F. 2013. Lake Chiuta governance diagnostic study. A study report submitted to NPCA,
South Africa.
Njuguna, E.M., Liani, L.M., Beyene, M & Ojiewo, C.O. 2016. Exploration of cultural norms and
practices influencing women’s participation in chickpea participatory varietal selection training
activities: A case study of Ada’a and Ensaro districts, Ethiopia. Journal of Gender, Agriculture
and Food Security Vol 1, Issue 3, pp 40-63, 2016
222
Noble, H.1 & Smith J. 2013. Qualitative data analysis: a practical example. Evident based
nursing. Available at https://ebn.bmj.com/content/ebnurs/17/1/2.full.pdf Accessed on 26 April
2019.
Nowakowski, K. 2014. International Women's Day 2014: Revealing the gap between men and
women farmers.
Nyamukondiwa, W. 2019. Kariba Bureau. New Bill to repeal Civil Protection Act on cards.
Available at https://www.herald.co.zw/new-bill-to-repeal-civil-protection-act-on-cards/ Accessed
on 20 May 2020.
OCHA (Office for the Coordination of Humanitarian Affairs). 2018. Annual report. Geneva,
Switzerland.
OECD (Organisation for Economic Co-operation and Development). 2016. Mitigating Droughts
and Floods in Agriculture: Policy Lessons and Approaches, OECD Studies on Water, OECD
Publishing, Paris. Available at https://doi.org/10.1787/9789264246744-en. Accessed on 20 March
2019.
Olsson, L., Opondo, M., Tschakert P. 2014. Climate change 2014: livelihoods and poverty.
Contribution of working group II to the fifth assessment report of the intergovernmental panel on
climate change. Cambridge University Press, Cambridge
Onwuegbuzie, A. J & Teddlie, C. 2003. A framework for analysing data in mixed methods
research. Handbook of mixed methods in social and behavioural research, 351-383.
Orlowsky, B & Seneviratne, S. I. 2012. Global changes in extreme events: regional and seasonal
dimension Climate Change.
Oseni, G., Corral, P., Goldstein. M & Winters, P. 2015. Explaining gender differentials in
agricultural production in Nigeria https://doi.org/10.1111/agec.12166.hgkv.
223
Oxfarm, 2009. Fact Sheet, Climate Change and Women. Available at
file:///C:/Users/Other/Documents/phd%20reserch%20literature/climatechangewomen-
factsheet.pdf Accessed on 25 August 2019.
Oxfarm, 2018. Why the majority of the world’s poor are women? Available at
https://www.oxfam.org/en/why-majority-worlds-poor-are-women Accessed on 18 October 2019.
Palmer, W.C. 1968. Keeping track of crop moisture conditions, nationwide: The new crop
moisture index. Weatherwise, 21, 156-161.
Pasteur, K. 2011. From Vulnerability to Resilience. A framework for analysis and action to build
community resilience. Practical Action publishing. Available at
http://practicalaction.org/media/view/9654 Accessed on 20 June 2017.
Pasteur, K. & Mc Quistan, C. 2011. Resilience in Practice Briefing 1. A systems approach to
building long-term, adaptive wellbeing for the most vulnerable. From Risk to Resilience
Peter, D., Little, M., Stone, P., Mogues,T., Castro, A.P. & Negatu,W. 2006. Moving in place.
Drought and poverty dynamics in South Wollo, Ethiopia. Journal of Development Studies
42(2):200-225 DOI: 10.1080/00220380500405287.
Polit, D.F. and Beck, C.T. 2004. Nursing Research: Principles and Methods. 7th Edition,
Lippincott Williams & Wilkins, Philadelphia.
Rankomise, A. O., 2015. Climate Change in Zimbabwe: Information and Adaption, Harare:
Konrad-Adenauer-Stiftung.
Rain, D. 1999. Eaters of the dry season, Circular labour migration in the West African Sahel
Boulder. CO.Westview Press.
Reasson, C.J.C., Hachigonta, S & Phaladi, R.F. 2005. Inter annual variability in rainy season
characteristics over the Limpopo region of Southern Africa. Int. J. Climatol. 25 1835-1853.
224
Relief Web (a). 2018. Horn of Africa food insecurity and drought. DG ECHO Daily Map.
Available at https://reliefweb.int/map/somalia/horn-africa-food-insecurity-and-drought-january-
2018-dg-echo-daily-map-08022018 Accessed on 29 September 2019.
Relief Web (b). 2018. Southern Africa: Drought. Available at https://reliefweb.int/disaster/dr-
2018-000429-zwe Accessed on 29 September 2019.
Renschler, C.S., Fraizer A.E., Arendt, L.A., Cimellaro, G.P., Reinhorn, A.M. & Michel Bruneau,
M. 2010. A Framework for Defining and Measuring Resilience at the Community Scale: The
PEOPLES Resilience Framework. U.S. Department of Commerce National Institute of Standards
and Technology, Office of Applied Economics Engineering Laboratory NIST GCR 10-930.
Gaithersburg, MD.
Renschler, C., Reinhorn, A. M., Arendt, L & Cimellaro, G. P. 2011. The PEOPLES resilience
framework: A conceptual approach to qualify community resilience proceeding of COMPDYN
2011- 3rd international conference in computational methods in structural dynamics and
earthquake engineering. Corfu, Greece.
Renschler, C.S. 2013. The PEOPLES Resilience Framework. An integrated quantitative measure
and modelling of Sustainable development and disaster risk reduction.
Risiro, J., Mashoko, D., Tshuma, T.D & Rurinda, E. 2012. Weather forecasting and indigenous
knowledge systems in Chimanimani district of Manicaland, Zimbabwe. Journal of Emerging
Trends in Educational Research and Policy Studies (JETERAPS) 3(4): 561-566 © Scholarlink
Research Institute Journals, 2012 (ISSN: 2141-6990) jeteraps.scholarlinkresearch.org.
Rural News. 2003. Worst drought on record. ABC. Available at
https://www.abc.net.au/news/rural/ Accessed on 20 April 2018.
Rosaroso, R.C. 2016. Using reliability measurement in test validation. PhD Associate Professor,
College of Arts and Sciences, Cebu Normal University, Cebu City, Philippines.
225
Rose, S., Spinks, N & Canhoto, A.I. 2015. Management Research: Applying the Principles
Available at https://s3-eu-west-1.amazonaws.com/s3-euw1-ap-pe-ws4-cws-documents.ri-
prod/9780415628129/Chapter%2013%20-%20Data%20exploration%20with%20Excel%20-
%20more%20than%20one%20variable%20final_edited.pdf Accessed on 28 November 2019.
Ross, K.L., Yacob, A., Zereyesusb, A., Shanoyanc, A & Amanor-Boadud, V. 2015. The health
effects of women empowerment: Recent evidence from Northern Ghana: International Food and
Agribusiness Management Review. Volume 18 Issue 1.
Sadomba, Z.W. 2008, War Veterans in Zimbabwe’s Land Occupations: Complexities of a
liberation movement in an African post-colonial settler society, PhD. Thesis, Wageningen
University.
Samwise, G. 2008. The division of Mashonaland Central for the 2008 elections. Available at
http://en.wikipedia.org/wiki/File:Mashonaland_Central-constituency2008.gif Accessed on 20
July 2018.
Sandelowski, M. 2000. Focus on research methods combining qualitative and quantitative
sampling, data collection, and analysis techniques. Research in nursing & health, 23, 246-255.
Sanderson, D. 2012. Understandings in disaster risk reduction and resilience. Sydney, Australia.
Särndal, C. E., Swensson, B. & Wretman, J. 2003. Model assisted survey sampling. Springer
Science & Business Media.
SAWS (South Africa Weather Services). 2003. Climate change, when what and where? South
Africa.
Saygin, S.D. 2017. Strategies to enhance sustainability of land resources in arid regions. Published:
December 27th, 2017. DOI: 10.5772/intechopen.72492
226
Serrano, V., Beguería, S.M., Moreno, S.L & JI. 2010. A multiscalar drought index sensitive to
global warming: the standardized precipitation evapotranspiration index. Journal of Climate 23
(7), 1696-1718
Sibanda, L.M. 2012. Women in African Agriculture: farmers, mothers, innovators and educators
A Montpellier Panel Briefing Paper.
Singh, R. Singh, V.K. & Adewara, A.A. 2013. Some improved estimators for estimating
population mean in stratified random sampling. Jour. Sci. Res., 57, 154-164
Shiferaw, B. & Okello, J. 2011. Stimulating smallholder investment in sustainable land
management. Overcoming market policy, and institutional challenge.
Shiferaw, B., Tesfaye, K., Kassiec, M., Abatec, T., Prasannac, B.M. & Menkir, A. 2014. Managing
vulnerability to drought and enhancing livelihood resilience in sub-Saharan Africa:
Technological, institutional and policy options.
Shimano, S. 2010. RCE greater Sendia: ESD in wetlands and rice paddies, RCE Bulletin Issue, 12.
Shoko, K & Shoko, N. 2013. Indigenous weather forecasting systems: A case study of the abiotic
weather forecasting indicators for wards 12 and 13 in Mberengwa district Zimbabwe. Asian Social
Science. 9 (5), p285
Smith J. B. & Lenhart, S. S. 1996. Climate Change Adaptation Policy Options, Climate Research,
Vol. 6, 1996, pp. 193-201. http://dx.doi.org/10.3354/c
Spring, 2015. Pew research Centre. Global Attitude Survey. Available at
https://www.pewresearch.org/global/2015/06/23/spring-2015-survey/ Accessed on 25 August
2019.
227
Sivakumar, M.V.K. & Wilhite, D.A. 2014. Drought Preparedness and Drought Management.
Available at wg-crop.icidonline: http://www.wgcrop.icidonline.org/2doc.pdf Accessed on 23 June
2019.
Strydom, H. 2011. Participatory action research. In: De Vos, A.S., Strydom, H., Fouche, C.B. &
Delport, C.S.L. (eds). Research at grass roots: for the social sciences and human service
professions. Pretoria: Van Schaik Publishers, 491-506.
Svoboda, M. 2009. Drought early warning systems. Lincolin: University of Nebraska
Tadesse, T., Haile, M., Senay, G., Wardlow, B.D. & Knutson, C.L. 2008. The Need for Integration
of Drought Monitoring Tools for Proactive Food Security Management in SubSaharan Africa.
Natural Resources Forum (32), 265-279.
Tarhule, A. and Ko-woo, M. 1997. Towards an interpretation of historical drought in Northern
Nigeria. Department of Geography, McMaster University, Hamilton, Ontario, L8S4K1, Canada.
Tashakkori, A. & Teddlie, C. 2003. Handbook of mixed methods in social and behavioural resea
rch. Thousand Oaks: Sage.
Tau, P. 2015. Drought starts taking its toll on livestock farmers. Available at
https://www.news24.com/SouthAfrica/News/drought-starts-taking-its-toll-on-livestock-farmers-
20151108 Accessed on 28 November 2019.
Taylor, M.A., Stephenson, T, S., Chen, A. A & Stephenson, K.A. 2012. Climate change and the
Caribbean. Review and response Caribbean studies, vol. 40, number 2, July-December 2012, pp.
169-200 Instituto de Estudios del Caribe San Juan, Puerto Rico.
Terry, G. 2009. No climate justice without gender justice: an overview of the issues’, Gender &
Development, 17: 1, 5 — 18.
228
The Standard. 2016. Food aid is being stolen, abused Cde. President. Available at
https://www.thestandard.co.zw/2016/09/11/food-aid-stolen-abused-cde-president/ Accessed on
29 March 2020.
The Zimbabwean. 2016. The child marriage judgment. Available at
https://www.thezimbabwean.co/2016/11/child-marriage-judgment/ Accessed on 22 March 2020.
Thierfelder, C., Cheesman, S & Rusinamhodzi, L. 2012. Benefits and challenges of crop rotations
in maize-based conservation agriculture (CA) cropping systems of southern Africa. International
Journal of Agricultural Sustainability. 11. 1-17. 10.1080/14735903.2012.703894.
Tigere, C. 2010. Climate change vulnerability and adaptation preparedness in Southern Africa:
Zimbabwe Country Report.
Trochim, W.M.K. 2020. Research methods knowledge base. Available at
https://conjointly.com/kb/descriptive-statistics/ Accessed 23 March 2020.
Tshuma, D. 2018. What next after Zimbabwe’s Parliamentary Quota System? Looking Beyond
2023. Available at https://www.accord.org.za/conflict-trends/looking-beyond-2023/ Accessed on
28 November 2019.
Twigg, J. 2015. Characteristics of a Disaster-resilient Community, a guidance notes to the DFID
DRR Interagency Coordination Group.
UN (United Nations). 2007. Rural women face problems of discrimination and manifold
disadvantages. Available at https://www.un.org/press/en/2007/gashc3887.doc.ht Accessed on 25
May 2018.
UN (United Nations). 2008. Gender perspectives: Integrating disaster risk reduction into climate
change adaptation good practices and lessons learned. Secretariat of the International Strategy
for Disaster Reduction
229
UN (United Nations). 2012. Somali famine is over, but action still needed. Available at
https://www.thejournal.ie/un-somalian-famine-is-over-but-action-still-needed-347449-Feb2012/
Accessed on 25 August 2019.
UN (United Nations). 2015. Conference of the Parties Twenty-first session Paris, Adoption of the
Paris agreement, Proposal by the President Draft decision -/CP.21.
UN (United Nations). 2015. Transforming our world: the 2030 Agenda for Sustainable
Development.
UNDP (United Nations Development Programme). 2002. Human development report: Deepening
democracy in a fragmented world. New York, 10017, USA.
UNDP (United Nations Development Programme). 2005. Human Development Report. UNDP.
New York: UNDP.
UNDP. (United Nations Development Program). 2008. Generic guidelines for mainstreaming
drylands issues into national development frameworks.
UNDP (United Nations Development Programme). 2009. Gender Equality and UNDP.
UNDP (United Nations Development Programme). 2019 Gender, climate and disaster resilience.
Available at https://www.undp.org/content/undp/en/home/2030-agenda-for-sustainable-
development/people/gender-equality/gender--climate-and-disaster-resilience.html Accessed on
25 November 2019.
UNDRR (United Nations Disaster Risk Reduction). 2017. Cancun Mexico, proceedings. Global
Platform for Disaster Risk Reduction United Nations Office for Disaster Risk Reduction.
UNEP (United Nations Environment Programme). 2017. World alerts of desertification.
Washington DC. USA
230
UNICEF (United Nations International Children's Emergency Fund). 2019. Zimbabwe
Humanitarian Situation Report - Multi-Hazard Mid-year SitRep. Available at
https://reliefweb.int/report/zimbabwe/zimbabwe-humanitarian-situation-report-multi-hazard-
mid-year-sitrep-30-june-2019 Accessed on 28 September 2019
UNFCCC (United Nations Framework Convention on Climate Change). 1992. Essential
background, 1771 U.N.T.S. 107.
UNISDR (United Nations International Strategy for Disaster Reduction). 2009. Global platform
for disaster risk reduction. 2nd session, Geneva, Switzerland.
UNISDR (United Nations Office for Disaster Risk Reduction). 2014. Annual Report for 2014.
Geneva, Switzerland.
UNISDR (United Nations International Strategy for Disaster Reduction). 2017. Terminology on
Disaster Risk Reduction. Available at: https://www.unisdr.org/we/inform/terminology Accessed
on 25 June 2018.
UN Women. 2018. Women and sustainable development goals.
UN Women. 2019. The gender gap in agricultural productivity in sub-Saharan Africa: Causes,
costs and solutions.
Upton, S. & Ibrahim, M. 2012. Resilience in practice. Programme briefing paper. Practical Action
Peru.
USAID (United States Agency for International Development). 2015. Greenhouse gas emissions
factsheet, Zimbabwe. Available at https://www.climatelinks.org/resources/greenhouse-gas-
emissions-factsheet-zimbabwe Accessed on 18 October 2019.
USAID (United States Agency for International Development). 2016. Southern Africa drought.
Available at
231
https://www.usaid.gov/sites/default/files/documents/1866/southern_africa_dr_fs02_05-06-
2016.pdf Accessed on 3 August 2019.
Utete. 2003. Report of the Presidential Land Review Committee, under the chairmanship of Dr
Charles M.B. Utete, Vol 1 and 2: Main report to his Excellency the President of The Republic of
Zimbabwe, Presidential Land Review Committee (PLRC)., Harare.
Van Lanen, H.A.J.,Tallaksen. L.M. & Rees, G. 2014. Droughts and climate change.
Van Loon, A. F., Gleeson, T., Clark, J., Van Dijk, A. I., Stahl, K., Hannaford, J., Uijlenhoet, R.
2016. Drought in the Anthropocene. Nature Geoscience, 9(2), 89 (19) (PDF) Drought and climate
change adaptation: impacts and projections. Available at
https://www.researchgate.net/publication/329705247_Drought_and_climate_change_adaptation_
impacts_and_projections Accessed on 30 July 2019.
Van Zyl, K. 2006. Disaster Risk Management Plan for the South African Agricultural Sector. Agri
SA. Pretoria: Agri SA.
Vicente-Serrano, S. M., S.Beguería & J. I.López-Moreno. 2010. A multiscalar drought index
sensitive to global warming: The standardized precipitation evapotranspiration index. Journal of
Climate, 23, 1696–1718.
Victoria Council of Social Services. 2014. Disaster and disadvantage, in emergency management.
Victoria Council.
Vogel, C. H., Laing, M. and Monnik, K. 2000. Drought in South Africa, with Special Reference
to the 1980-94 period, in D. A. Wilhite (ed.) Drought Volume 2 A Global Assessment. Routledge,
London, pp 348-367.
Vogel, C.H. 2000. Usable science: an assessment of long-term seasonal forecasts amongst farmers
in rural areas of South Africa. J 82:107–116
232
Vogt, J. & Somma, F. 2000. Drought and Drought Mitigation in Europe. Dordrecht: Kluwer.
Weber, B. 1990. Basic content analysis. Quantitative applications in the social sciences. 2nd
Edition. DOI: Available at https://dx.doi.org/10.4135/9781412983488 Accessed on 23 April 2019.
Wilhite, D.A., Svoboda, M.D. & Hayes, M. 2007. Understanding the complex impacts of drought.
A key to enhancing drought mitigation and preparedness. Water resources management.
Wilhite, D.A. 2000. Drought Planning and Risk Assessment: Status and Future Directions. Annals
of Arid Zone. (39), 211-230.
Wilkin, J., Biggs, E & Tatem A.J. 2019. Measurement of social networks for innovation within
community disaster resilience. UWA. School of Agriculture and Environment.
Wisner, B., Blaikie, P., Cannon, T. & Davis, I. 2004. At Risk: Natural Hazards, People's
Vulnerability and Disasters. (2 nd ed.). London: Routledge.
WISP (World Initiative for Sustainable Pastoralism). 2007. Pastoralism as conservation in the
Horn of Africa. Policy brief No. 3 June 2007
White, S.C. 1991. Evaluating the impact of NGOs in rural poverty alleviation, Bangladesh country
study. Working paper 50. Overseas Development Institute, Regent's College Inner Circle, Regent's
Park, London.
Wolski, P. 2018. What Cape Town learned from its drought? Bulletin of the Atomic Scientists.
Available at https:// thebulletin.org/2018/04/whatcape- town-learned-from-its-drought/ Accessed
on 29 September 2019.
WMO (World Meteorological Organization). 2007. Annual Report for 2007.
WMO (World Meteorological Organization). 2009. Publications on agriculture, land, drought,
and desertification.
233
Women’s Environment and Development Organization (WEDO). 2008. Final Report. Gender and
climate change workshop. 2 – 3 June 2008. Dakar, Senegal.
World Bank, 2014. Gender Gap Holds Back Africa’s Women Farmers: New Report Identifies
Policy Interventions to Narrow and Eliminate Gender Inequality. Available at
https://www.worldbank.org/en/news/press-release/2014/03/18/gender-gap-holds-back-africas-
women-farmers-new-report-identifies-policy-interventions-to-narrow-and-eliminate-gender-
inequality Accessed 25 September 2019.
World Press Review. 2002. Worldpress.org. Available at
http://www.worldpress.org/Africa/719.cfm Accessed on 23 June 2019.
Zammit, C. 2018. Presentation to Deep South dialogue 4. Climate Change and Drought.
ZCAWD (Zimbabwe Country Analysis Working Document). Final draft. 2014. Harare,
Zimbabwe.
Zereyesus, Y.A. 2017. Women's empowerment in agriculture and household‐level health in
Northern Ghana: A capability approach. Journal of International Development.
https://doi.org/10.1002/jid.3307.
Zimbabwe Department of Metrological Service. 2002. National Rainfall Deviation. Available at
http//weather.utande.co.zw/climate/climatechange.htm Accessed on 25 August 2019.
ZimVAC (Zimbabwe Vulnerability Assessment Committee). 2012 Rural livelihoods assessment
report. Zimbabwe.
ZimVAC (Zimbabwe Vulnerability Assessment Committee). 2014. Rural Livelihoods
Assessment. Zimbabwe.
ZimVAC (Zimbabwe Vulnerability Assessment Committee). 2013. Rural Livelihoods
Assessment. Zimbabwe.
234
ZimVAC (Zimbabwe Vulnerability Assessment Committee). 2019. Rural Livelihoods
Assessment. Zimbabwe.
ZWRCN (Zimbabwe Women's Resource Centre & Network), 2007. Review of African Political
Economy, 20:56, 123, DOI: 10.1080/03056249308703996
Zimbabwe Country analysis working document. 2014. Final draft. Available at
www.zw.one.un.org/sites/default/files/ Accessed on 25 August 2019.
Zimmerman, F.J. & Cater, M. 2013. Asset smoothing, consumption smoothing and the
reproduction of inequality under risk and subsistence constraints. Journal of Development
Economics, 2003, vol. 71, issue 2, 233-260
ZIMSTAT (Zimbabwe Statistics). 2012. Zimbabwe National Statistics Agent. Census 2012
National Report.
235
APPENDIX A: RESEARCH QUESTIONNAIRE
INTRODUCTION
I am a student at the University of the Free State, conducting research on “A climate change –
induced drought resilient framework developed for resettled women under Fast Track
Land Resettlement Programme: A case of Zimbabwe”. The study is focusing on strategies
that can be implemented to increase resilience of women in farming.
You are invited to participate in this research by providing your views and your contributions
will be highly appreciated. The data gathered will be kept confidential and the results will be
used for academic purposes and may be used by other relevant stakeholders that are within and
outside the university for development intervention purposes. You are welcome to withdraw
from the research at any stage if you do not feel comfortable. If they are not happy with any
aspect of the way the research is conducted, you can contact DIMTEC offices at the University
of the Free State. Please answer all questions in all possible honesty.
DEMOGRAPHICS
1. Indicate your age group in years: 18-29 [ ], 30-39 [ ], 40-49 [ ], 50-59 [ ], 60+ [ ]
2. Which one applies to your marital status? : Married [ ], Single [ ], Widowed [ ], Separated [ ]
Divorced [ ]
3. What is your household size? Less than 2 [ ], 2 to less than 5 [ ], 5 to less than 9 [ ], 9 to less
than 12 [ ], More than 12 [ ].
4. What is your primary position in the household? Sole breadwinner [ ], wife [ ], grandmother
[ ], relative [ ], other (specify)
236
5. What is your highest level of education? No schooling [ ], Primary school [ ], O level [ ],
A level [ ], Diploma [ ], Degree [ ].
6. Do you own the land you are farming? Yes [ ], No [ ].
7. How did you obtain the land you are farming on? Land grabbing [ ], from government [ ],
Purchased the land [ ], other, specify.
8. Which model of farming under land reform do you fall under? A1 [ ], A2 [ ].
9. Which type of farming are you practicing? Arable farming [ ], Pastoral farming [ ], Mixed
farming [ ]
10. Did you receive any formal education that is agriculture related? Yes [ ], No [ ]
HAZARDS AND STRESSES
11. Do you have knowledge of climate change/drought impacts? Yes [ ], No [ ]
12. Have you lost any livestock due to drought? Yes [ ], No [ ] If yes how many did you lost
through: Sold [ ], Dead [ ].
13. Have you lost crops due to drought? Yes [ ], No [ ]
14. Has drought affected any of the following surface water sources?
Type of water
source
Yes No
Boreholes
Wells
Rivers
Ponds
237
15. Have you recoded any financial losses due to drought? Yes [ ], No [ ], if yes what was the
reason behind loss of revenue (tick the reasons behind)
16. Are you aware of any drought preparedness strategies? Yes [ ], No [ ].
17. Do you have a personal drought management plan, Yes [ ], No [ ] if yes briefly describe the
plan?
18. Are there drought early warning system that you are aware of? Yes [ ], No [ ]. If yes please
state them
19. Are you as a woman involved in processes of drought risk reduction? Yes [ ], No [ ]
FUTURE UNCERTANITY
20. What are the adaptive strategies do you apply in case of climate change induced drought? You
can tick more than one answer
Strategy Tick
Diversify crops
Change crops
Improve irrigation systems
Buy insurance
Other, specify
21. Have the adaptation strategies that you applied lead to stronger resilience? Yes [ ], No [ ]
Crop failure
Loss of animals
Lack of crop insurance
Inadequate relief funds
Lack of labour
Other specify
238
22. Will current strategies allow the community to cope with or respond to these trends and
changes? Yes [ ], No [ ]
23. Which sector experts can inform you on the latest adaptation options to support livelihoods
assets in relation to drought? You can tick more than one answer
24. Are there climate change awareness campaigns in place? Yes [ ], No [ ].
25. Do you have access to relevant and timely information relating to climate change induced
drought? Yes [ ], No [ ]
LIVELIHOOD
26. Does the community have good access to markets? Yes [ ], No [ ]
27. Does the community have other sources of employment? Yes [ ], No [ ]. If yes state the
sources of employment
28. Are there cultural practices and value that discriminates women from farming? Yes [ ],
No [ ]
29. Are there programmes that advocate for women empowerment? Yes [ ], No [ ] if yes mention
the programmes
Research organisations
Government inputs
Water management experts
Agriculture extension
Private sector
Other
239
30. Mention social networks that are involved in drought risk reduction
31. Indicate by marking an “X” on how you feel about the following statements:
Statement Strongly
agree
Agree Undecided Disagree Strongly
disagree
Because of my gender, I am able to
make decisions that are agriculture
related
As a women I am able to get a loan or
any assistance from the bank
As a women farmer, I am able to get
financial assistance from the
government
32. What other type of assistance should be given to women in farming?
GOVERNANCE
33. Are there organizations or institutions that are assisting women in farming? Yes [ ], No [ ] if
yes mention them.
34. Indicate by marking an “X” on how you feel about the following statement:
Statement Strongly
agree
Agree Undecided Disagree Strongly
disagree
The government should engage the
community when there are planning
for drought risk measures in the area.
35. Is the government engaged in implementing effective drought risk reduction
activities/strategies? Yes [ ], No [ ]
240
36. How can the government build comprehensive drought monitoring and early warning systems?
37. What policies exist which promote poverty reduction at national and local levels.
38. Are the current legislations, institutions and policies on climate change and drought effective?
Yes [ ], No [ ]
39. How can the government of Zimbabwe improve on drought risk management?
RESILIENCE
40. Are you aware of the relief programmes in place? Yes [ ], No [ ] if yes mention the
programmes
41. Do you get relief funds in the event of drought? Yes [ ], No [ ]
42. In what way do you get relief amount? Cash [ ], Cattle care [ ], Subsidies [ ],
Food for work [ ], Employment generating schemes [ ], others [ ] specify
43. Indicate by marking an “X” on how you feel about the following statement
Statement Very
satisfied
Satisfied Neutral Not
satisfied
Very
unsatisfied
How satisfied are you with the relief
that you are getting?
241
APPENDIX B: INTERVIEW GUIDE
INTRODUCTION
I am a student at the University of the Free State, conducting research on “A climate change –
induced drought resilient framework developed for resettled women under Fast Track Land
Resettlement Programme: A case of Zimbabwe”. The study is focusing on strategies that can
be implemented to increase resilience of women in farming. This interview guide is directed to
key informants: extension officers, experts and the local leaders.
You are invited to participate in this research by providing your views and your contributions will
be highly appreciated. The data gathered will be kept confidential and the results will be used for
academic purposes and may be used by other relevant stakeholders that are within and outside the
University for development and intervention purposes. Please answer all questions in all possible
honesty.
HAZARDS AND STRESSES
1. What are the challenges women farmers are facing due to drought?
2. Do you regard drought as a regular part of farming, and why do you say so?
3. How are farmers managing with the impacts of drought?
4. Are there early warning systems in place?
5. What can be done to improve monitoring and early warning systems of drought?
FUTURE UNCERTANITY
6. Do you have access to relevant and timely information relating to climate change induced
drought? Yes [ ], No [ ]
242
7. Are there climate change awareness campaigns in place?
8. What are the adaptive strategies do you apply in case of climate change induced drought?
LIVELIHOOD
9. What are the local livelihood assets and resources used by women?
10. Which strategies is the community using to secure their livelihoods against the impacts of
drought?
11. Are women farmers receiving adequate agricultural training/education?
12. What type of insurance is available for women farmers?
GOVERNANCE
13. What type of preparedness measures have been implemented by the government and other
organisations?
14. What type of assistance are farmers receiving from government and other organisations?
15. Are there policies and legislations that are drought related? If yes mention them.
16. Is the government engaged in implementing disaster risk reduction activities/strategies?
17. How can the government of Zimbabwe improve on drought risk management?
RESILIENCE
18. Is the amount of assistance women farmers are receiving from sufficient?
19. What should be done to strengthen the resilience of women in farming?
20. Are there drought relief programmes in place?
243
APPENDIX C: ETHICAL CLEARANCE LETTER
244
APPENDIX D: PERMISSION TO CONDUCT RESEARCH
245
APPENDIX E: CORNFIRMATION LETTER FROM THE EDITOR